Mobile video presentation, digital compositing, and streaming techniques implemented via a computer network

ABSTRACT

Various aspects disclosed herein are directed to Online Education techniques and award incentives for facilitating collaborative, social online education. One aspect disclosed herein is directed to different methods, systems, and computer program products for facilitating mobile video presentations using digital composting techniques.

RELATED APPLICATION DATA

This application is a continuation-in-part application, pursuant to the provisions of 35 U.S.C. §120, of prior U.S. patent application Ser. No. 14/216,688 titled “METHODS FOR ONLINE EDUCATION” by Fieldman, filed on Mar. 17, 2014, which claims benefit of U.S. Provisional Application Ser. No. 61/799,332, titled “PROVISION OF ONLINE EDUCATION”, naming Ethan Fieldman as inventor, and filed Mar. 15, 2013. Each of these applications is incorporated herein by reference in its entirety and for all purposes.

This application is a continuation-in-part application, pursuant to the provisions of 35 U.S.C. §120, of U.S. patent application Ser. No. 14/659,436 titled “AWARD INCENTIVES FOR FACILITATING COLLABORATIVE, SOCIAL ONLINE EDUCATION” naming Ethan Fieldman as inventor, and filed on Mar. 16, 2015, the entirety of which is incorporated herein by reference for all purposes. U.S. patent application Ser. No. 14/659,436 is a continuation-in-part application, pursuant to the provisions of 35 U.S.C. §120, of prior U.S. patent application Ser. No. 14/641,840 titled “COLLABORATIVE, SOCIAL ONLINE EDUCATION AND WHITEBOARD TECHNIQUES”, by Fieldman, filed on Mar. 9, 2015, which claims benefit, pursuant to the provisions of 35 U.S.C. §119, of: U.S. Provisional Application Ser. No. 62/076,049, titled “COLLABORATIVE, SOCIAL ONLINE EDUCATION AND WHITEBOARD TECHNIQUES”, by Fieldman, filed Nov. 6, 2014; and 61/954,419, titled “PROVISION OF ONLINE EDUCATION”, by Fieldman, filed Mar. 17, 2014. Each of these applications is incorporated herein by reference in its entirety and for all purposes.

This application is a continuation-in-part application, pursuant to the provisions of 35 U.S.C. §120, of prior U.S. patent application Ser. No. 14/791,700 titled “VIDEO PRESENTATION, DIGITAL COMPOSITING, AND STREAMING TECHNIQUES IMPLEMENTED VIA A COMPUTER NETWORK” by Fieldman, filed on Jul. 6, 2015, herein incorporated by reference in its entirety and for all purposes.

BACKGROUND

The present disclosure relates to online education. More particularly, the present disclosure relates to various techniques for award incentives for facilitating collaborative, social online education.

Online education is increasing in popularity and user participation. The strength and appeal of online education is that users do not have to be in the same location, either physically or academically, in order to collaborate and learn. However, this strength is undermined by existing limitations in online learning platforms.

Despite advances in online education techniques, it remains problematic to engage in discussions and/or collaborations focused on non-textual material in online discussion forums, chat rooms, discussion walls, etc. It also remains problematic to engage in online video presentations and/or online educational videos. For example, many of today's online educational videos do not capture student attention for long (or at all), and often come across as being impersonal or mechanical. Such educational videos typically have to choose between showing an instructor, speaking to a camera (lecture style), or featuring the problem at hand, with instruction, if any is given, as a voiceover (documentary style). None of these styles is conducive to learning, particularly math-related learning. For example, in educational videos providing math instruction via the documentary style, students may need to view problems and equations (presented in the educational video) in order to follow along fully, and are therefore unable to simultaneously or concurrently observe the visual cues of the Presenter. As a result, the student's eye never quite knows where to “rest”. Such issues are detrimental to the online learning experience, particularly in situations involving concepts that need to be illustrated in order to be understood and/or discussed.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a simplified block diagram of a specific example embodiment of an Online Social Education Network (OSEN) or Online Social Education System (OSES), which may be implemented via a computerized data network.

FIG. 2 shows a diagrammatic representation of machine in the exemplary form of a client (or end user) computer system.

FIG. 3 is a simplified block diagram of an example client system in accordance with a specific embodiment.

FIG. 4 illustrates an example embodiment of a server system, which may be used for implementing various aspects/features described herein.

FIG. 5 illustrates an example of a functional block diagram of an Online Social Education System in accordance with a specific embodiment.

FIGS. 6-10 and 11-13 illustrate example screenshots of various graphical user interfaces (GUIs), which may be used for facilitating activities relating to one, or more of the online social education aspects disclosed herein.

FIGS. 16A-E illustrate example screenshots of various GUIs which may be used for facilitating activities relating to one or more of the video presentation and digital composting aspects disclosed herein.

FIGS. 17-25 illustrate different example components and configurations, which may be utilized for implementing one or more of the video presentation and digital composting aspects disclosed herein.

FIGS. 26 and 28 illustrate example screenshots of conventional Picture-in-Picture (PiP) display techniques.

FIGS. 27 and 29 illustrate example screenshot embodiments of Picture-in-Picture (PiP) configurations utilizing various inventive PiP display techniques disclosed herein.

FIGS. 14-15, and 30-31 illustrate example screenshots of conventional educational video presentation display techniques.

FIGS. 32-41 show a sequence of example screenshots illustrating various transition features which are enabled via the various video presentation and digital composting techniques disclosed herein.

FIGS. 42-51 show example screenshots and system diagrams which may be utilized for implementing one or more of the mobile device based video presentation and digital composting aspects disclosed herein.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS Overview

Various aspects described or referenced herein are directed to different methods, systems, and computer program products relating to online education techniques, functions and features.

One aspect disclosed herein is directed to different methods, systems, and computer program products for facilitating collaborative, online education, video presentation and digital composting via a computer network.

Another aspect disclosed herein is directed to different methods, systems, and computer program products for using a mobile device to facilitate presentation of a streamed video media presentation over a computer network. In at least one embodiment, the computer network includes a video presentation production system comprising a mobile device that includes at least one processor, memory, a first display, a first camera component, and a first microphone. In at least one embodiment, the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: capture, using the first camera component, a video media of a presenter delivering a first live mobile video presentation, and further being configured to generate a presenter video feed of the presenter delivering the first mobile video presentation; generate a first presentation content feed relating to the first mobile video presentation, the first presentation content feed including a first portion of presentation content; and generate a composite video presentation feed comprising a Chroma key composted video image of the presenter video feed overlaid or superimposed over a portion of the first presentation content feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to display, at the first display, a video presentation graphical user interface (“video presentation GUI”) which is operable to display a real-time feed of the composite video presentation feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to: cause a video presentation graphical user interface (“video presentation GUI”) to be displayed at the first display; cause the video presentation graphical user interface to display a real-time feed of the composite video presentation feed in a manner such that presenter is able to view, while delivering the first mobile video presentation, displayed content on the first display concurrently while substantially maintaining eye contact with the first camera component.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to cause the composite video presentation feed to be simultaneously streamed to a plurality of end user devices in substantially real-time, while presenter delivering a first live presentation.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to: enable the presenter to selectively add, in real-time and while the presenter is delivering the first mobile video presentation, at least one annotation to the first portion of presentation content; and enable the presenter to view the annotated presentation content on the display screen in substantially real-time, while the presenter is delivering the first mobile video presentation.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to: capture content displayed on the first display of the mobile device; and generate the presentation content feed using at least a portion of the captured display content.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to: identify presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify background content of the presenter video feed to be filtered from the presenter video feed; and dynamically generate a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions to: identify, while the presenter is delivering the first mobile video presentation, presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify, while the presenter is delivering the first mobile video presentation, background content of the presenter video feed to be filtered from the presenter video feed; dynamically generate, while the presenter is delivering the first mobile video presentation, a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content; and use the filtered presenter video feed generate the Chroma key composted video image of the composite video presentation feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for streaming the presenter video feed as a first media stream; streaming the presentation content feed as a second media stream; and synchronizing streaming of the first media stream and the second media stream.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for enabling an end user to dynamically resize the video image of the presenter.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for enabling the end user to dynamically resize the video image of the presenter in real-time, while first video presentation is being displayed to the end user.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for enabling the end user to dynamically resize the video image of the presentation content feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for enabling the end user to dynamically adjust a transparency display characteristic of the video image of the presenter.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for enabling the end user to dynamically adjust a transparency display characteristic of the video image of the presentation content feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for: causing the first video presentation to be displayed in a manner such that the video image of the presenter is superimposed over a first region of displayed presentation content associated with the presentation content feed; and enabling the end user to dynamically move the video image of the presenter over a second region of displayed presentation content associated with the presentation content feed.

Additional method(s), system(s) and/or computer program product(s) may be further operable to cause at least one processor to execute additional instructions for configuring the video presentation GUI to enable one or more end users to participate in an online, collaborative discussion thread which is linked to the first video presentation.

Another aspect disclosed herein is directed to a video presentation production system comprising: a video presentation server including at least one processor and a memory; a first video camera communicatively coupled to the video presentation server, the first video camera being configured to capture a video image of a presenter delivering a first live presentation, and further configured to generate a first presenter video feed of the presenter delivering the first mobile video presentation; a presentation content production system communicatively coupled to the video presentation server, the communicatively coupled to the video presentation server configured to generate a first presentation content feed relating to the first mobile video presentation, the first presentation content feed including at least one image of presentation content selected from a group consisting of: a hand written note, a whiteboard canvas, an annotation generated by the presenter, animation, a graph, an equation, a picture, a slide, a spreadsheet, and a document; the video presentation server being operable to cause the at least one processor to execute a plurality of instructions stored in the memory for: (i) generating, using a Chroma key composting technique, an output presenter video feed comprising a Chroma key composted video image of the presenter delivering the first mobile video presentation, and (ii) generating, using the output presenter video feed and the first presentation content feed, a first video presentation media stream configured to present the first mobile video presentation in a manner such that the Chroma key composted video image of the presenter is superimposed over a portion of displayed presentation content associated with the first presentation content feed; the video presentation production system further comprising a display screen physically positioned adjacent to the first video camera such that the presenter is able to view, while delivering the first mobile video presentation, displayed content on the display screen concurrently while substantially maintaining eye contact with the first video camera; and the display screen being operable to display the first video presentation media stream to the presenter while the presenter is delivering the first mobile video presentation, thereby enabling the presenter to view on the display screen, in substantially real-time and while the presenter is delivering the first mobile video presentation, the at least one image of presentation content while concurrently substantially maintaining eye contact with the first video camera. In at least one embodiment, the video presentation server is operable to generate the output presenter video feed in substantially real-time while the presenter is delivering the first mobile video presentation. In at least one embodiment, the video presentation server is operable to generate the first video presentation media stream in substantially real-time while the presenter is delivering the first mobile video presentation.

In at least one embodiment, the video presentation production system further comprises a remote annotation device operable by the presenter and configured to enable the presenter to selectively add annotations to the at least one image of presentation content while the presenter is delivering the first mobile video presentation; and wherein the video presentation production system is configured to enable the presenter to view the annotated presentation content on the display screen in substantially real-time, while the presenter is delivering the first mobile video presentation.

Various objects, features and advantages of the various aspects described or referenced herein will become apparent from the following descriptions of its example embodiments, which descriptions should be taken in conjunction with the accompanying drawings.

SPECIFIC EXAMPLE EMBODIMENTS

Various techniques will now be described in detail with reference to a few example embodiments thereof as illustrated in the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of one or more aspects and/or features described or reference herein. It will be apparent, however, to one skilled in the art, that one or more aspects and/or features described or reference herein may be practiced without some or all of these specific details. In other instances, well known process steps and/or structures have not been described in detail in order to not obscure some of the aspects and/or features described or reference herein.

One or more different inventions may be described in the present application. Further, for one or more of the invention(s) described herein, numerous embodiments may be described in this patent application, and are presented for illustrative purposes only. The described embodiments are not intended to be limiting in any sense. One or more of the invention(s) may be widely applicable to numerous embodiments, as is readily apparent from the disclosure. These embodiments are described in sufficient detail to enable those skilled in the art to practice one or more of the invention(s), and it is to be understood that other embodiments may be utilized and that structural, logical, software, electrical and other changes may be made without departing from the scope of the one or more of the invention(s). Accordingly, those skilled in the art will recognize that the one or more of the invention(s) may be practiced with various modifications and alterations. Particular features of one or more of the invention(s) may be described with reference to one or more particular embodiments or figures that form a part of the present disclosure, and in which are shown, by way of illustration, specific embodiments of one or more of the invention(s). It should be understood, however, that such features are not limited to usage in the one or more particular embodiments or figures with reference to which they are described. The present disclosure is neither a literal description of all embodiments of one or more of the invention(s) nor a listing of features of one or more of the invention(s) that must be present in all embodiments.

Headings of sections provided in this patent application and the title of this patent application are for convenience only, and are not to be taken as limiting the disclosure in any way.

Devices that are in communication with each other need not be in continuous communication with each other, unless expressly specified otherwise. In addition, devices that are in communication with each other may communicate directly or indirectly through one or more intermediaries.

A description of an embodiment with several components in communication with each other does not imply that all such components are required. To the contrary, a variety of optional components are described to illustrate the wide variety of possible embodiments of one or more of the invention(s).

Further, although process steps, method steps, algorithms or the like may be described in a sequential order, such processes, methods and algorithms may be configured to work in alternate orders. In other words, any sequence or order of steps that may be described in this patent application does not, in and of itself, indicate a requirement that the steps be performed in that order. The steps of described processes may be performed in any order practical. Further, some steps may be performed simultaneously despite being described or implied as occurring non-simultaneously (e.g., because one step is described after the other step). Moreover, the illustration of a process by its depiction in a drawing does not imply that the illustrated process is exclusive of other variations and modifications thereto, does not imply that the illustrated process or any of its steps are necessary to one or more of the invention(s), and does not imply that the illustrated process is preferred.

When a single device or article is described, it will be readily apparent that more than one device/article (whether or not they cooperate) may be used in place of a single device/article. Similarly, where more than one device or article is described (whether or not they cooperate), it will be readily apparent that a single device/article may be used in place of the more than one device or article.

The functionality and/or the features of a device may be alternatively embodied by one or more other devices that are not explicitly described as having such functionality/features. Thus, other embodiments of one or more of the invention(s) need not include the device itself.

Techniques and mechanisms described or reference herein will sometimes be described in singular form for clarity. However, it should be noted that particular embodiments include multiple iterations of a technique or multiple instantiations of a mechanism unless noted otherwise.

As described in greater detail herein, various aspects of the present application describe different techniques which may be used to improve online education techniques, and to overcome at least a portion of the issues relating to online education and online learning, such as those described above. More specifically, various different techniques are described herein for improving online education techniques by enabling users to communicate and collaborate on online social education platforms using images, graphs, drawings, etc. Such techniques significantly enhance the online learning experience, and provide a heretofore missing piece to online learning platforms. For example, using the various image posting techniques described herein, users can now easily show tutors, teachers, peers, etc. the exact problem they are working on, and communicate regarding the problem without dealing with how to express the problem itself. These techniques are suitable for a wide range of online learning environments, including, but not limited to, facilitating 1-on-1 tutoring scenarios, small group interactions (in which a small group of peers exchange ideas, or, a small group of students are led by a teacher, or a mixed thereof), and universal group learning (in which discussion area is not segmented to only include a subset of users, but rather, all who visit the area can see the ongoing discussion.) This solution may also be extended beyond the online realm and into real-world classrooms. For example, using the various image posting techniques described herein, students in real-world (physical) classrooms may capture images and/or compose text (e.g., relating to potential solutions, comments, and/or questions) using their mobile devices, and may easily transmit or convey such images/text (e.g., via email, mobile app, text message, MMS message, chat, etc.) to teachers, without a teacher having to visit each individual, desk, or group of students. Students may also participate in group work without moving desks, which is something that may be otherwise impractical (e.g. students with mobility issues) or impossible (e.g. classrooms are in computer lab setting, so students cannot move desks to easily collaborate) in conventional education environments. In this way, students can contribute ideas even if they are hesitant to verbally express ideas simply by, for instance, texting in a graphed solution.

FIG. 1 illustrates a simplified block diagram of a specific example embodiment of an Online Social Education Network (OSEN) or Online Social Education System (OSES) 100, which may be implemented via a computerized data network. As described in greater detail herein, different embodiments of Online Social Education Systems may be configured, designed, and/or operable to provide various different types of operations, functionalities, and/or features generally relating to Online Education technology. More specifically, the Online Education (OE) techniques described herein utilize social learning and technological breakthroughs to construct and stage a vibrant online learning system for students, teachers, parents, and educators. These Online Education techniques help to foster a dynamic online education environment via social interaction (e.g., non-linear, hands-on, effective and fun).

For example, one aspect of the Online Social Education System (OSES) 100 is directed to an online, “Interactive Study Wall”, where students can ask/post questions and receive answers from peers (e.g., other students), teachers, and/or other educators (such as, for example, Study Experts). The OE System may include functionality for enabling participants to post questions/responses via drawing graphs, inserting equations, taking/uploading images (e.g., photos, screenshots, etc.), voice memos (and/or other audio clips), and/or videos. In at least one embodiment, Study Experts may function as Interactive Study Wall moderators, and monitor the interactions in real time and/or non-real time, answering questions and reviewing posted threads to ensure the accuracy of the posted replies/responses.

In at least one embodiment, the Interactive Study Wall is configured or designed to encourage students to feel free to ask even the simplest of questions. The discussions, which these questions spark, and the answers/responses they elicit are individualized to the student, yet also universally applicable (e.g., a response describing a solution to a math problem).

According to different embodiments, multiple different instances of online Interactive Study Walls may be instantiated (e.g., concurrently instantiated) for different topic or fields of study such as, for example, one or more of the following (or combinations thereof):

-   -   Algebra;     -   Geometry;     -   Physics;     -   Accounting;     -   Chemistry;     -   Civics;     -   Social Sciences;     -   General Educational Curriculum;     -   Foreign Language Curriculum;     -   etc.

In at least one embodiment, an Interactive Study Wall may be configured or designed to be completely searchable and transparent. For example, in one embodiment, a specific Interactive Study Wall (e.g., Algebra Wall) may be accessible to all students and teachers of a given district or region (such as, for example, school district, county, state, country, textbook, or subgroup—e.g. all students who take the same test, etc.). For example, a question asked by a student in Miami, Fla. might prove useful to a student in Boulder, Colo., and a teacher or Study Expert in Phoenix, Ariz. may use the Interactive Study Wall to provide assistance to students in Dallas, Tex.

In at least some embodiments, Interactive Study Wall may be configured as a shared resource for facilitating student and/or teacher communications across school, district, state, country, subjects, etc., thereby creating a substantially collaborative and open environment among all users, while simultaneously reducing security threats to children. In at least some embodiments, the Online Social Education System may be configured or designed to enable various collaborative, non-hierarchical Interactive Study Wall features. For example, the Interactive Study Wall may be configured or designed to:

-   -   Enable teachers to use the Interactive Study Wall to interact         with their students and vice-versa.     -   Enable students to use the Interactive Study Wall to interact         with other students, such as, for example, students who are         learning or studying similar educational curriculum or similar         educational standards.     -   Enable students and Study Experts to use the Interactive Study         Wall to interact with each other.     -   Enable teachers to interact with other teachers.     -   Etc.

In some embodiments, manual and/or automated mechanisms may be provided to identify and filter out unrelated, negative or derogatory comments/responses. Additionally, unlike most existing social networks and online forums, in at least some embodiments, the Interactive Study Wall may be configured or designed to prohibit personal or private messaging (e.g., between or among peers). This helps to foster a publically collaborative, socially interactive environment among all users. Further, in at least some embodiments, the Interactive Study Wall may be configured or designed to prohibit or prevent students (and/or other users) from accessing other users' pictures and personal profiles. Students are able to select their own photo to use on the Wall, or to select from an array of preset avatars. For example, participants' profile pages may be blocked, thereby preventing access participants' personal information.

Additionally the Interactive Study Wall may be continuously monitored (e.g., via automated and/or human mechanisms), and may be configured or designed to provide notification to Study Experts (e.g., moderators) whenever a question and/or response is posted on an Interactive Study Wall. The wall may also be configured so each post must be approved prior to posting, or, in another embodiment, posts during a certain range of time or days may have to be approved (e.g. posts made “after hours”, when wall is not monitored by a Study Expert.)

In at least one embodiment, students may be allocated points or awards or incentives for posting questions and/or for answering peers' questions on the Interactive Study Wall. In the following embodiments, the awards are called “Karma points”, but do not necessarily need to be named so. For example, in one embodiment, the Interactive Study Wall may include functionality for enabling Study Experts or moderators to award students with differing amounts of “Karma points” for asking questions and/or answering peers' questions. In some embodiments, Karma points may be shown next to a student's name, and a “Karma Leader Board” may be maintained and automatically updated to track, for example, the top n (e.g., n=5) karmic leaders in a specified group, region or district. Accumulated Karma points may be redeemable for physical (e.g., real-world) prizes. For example, according to different embodiments, the Online Social Education System may award incentive prizes to various different entities such as, for example: students, teachers, schools, grades, classes, school districts, regions, etc. In some embodiments, the Interactive Study Wall award system may be configured or designed to provide or enable one or more of the following features (or combinations thereof):

-   -   Identifying and assigning specific roles to certain persons as         administrators, teachers, Study Experts, etc.     -   Enabling persons (e.g., administrators, Study Experts, etc.) to         monitor study wall posts and allocate or distribute         awards/points to users based on perceived effort of user and on         helpfulness of user's comment(s)/post(s).     -   Preventing awards/points from being allocated or distributed to         users who post or give away answers.     -   Prevent awards/points from being allocated or distributed to         users who engage in cheating.     -   Provide mechanisms for punishing users who engage in cheating.     -   Deduct points from users who give away the answer(s), provide         too much help, and/or engage in cheating.

According to different embodiments, at least some Online Social Education System(s) may be configured, designed, and/or operable to provide additional features, advantages and/or benefits and/or may be operable to initiate, and/or enable various different types of operations, functionalities, and/or features, such as, for example, one or more of the following (or combinations thereof):

-   -   Features relating to Personalization on of Wall/Adaptive         Learning/Interactive Discussion Forums         -   Discussion boards may be automatically and dynamically             personalized dependent on the needs and/or interests of             user/viewer.         -   Automated Adaptive Learning and Personalization of User's             Interactive Study Wall. In at least one embodiment, this may             include showing specific posts to specific students (e.g.,             based on level of student, student's district, school,             course enrollment, state or national standards associated             with the student's needs, etc.). In some embodiments the             automated adaptive learning and personalization of a user's             Interactive Study Wall may be based, at least partially,             posts which the user has “liked”. In this way, the Online             Social Education System is able to dynamically learn what             subject matter a student like, and may dynamically learn or             determine the educational curriculum levels: (1) in which             the student has demonstrated an adequate understanding or             proficiency of specific subject matter, and (2) in which the             student has not yet demonstrated an adequate understanding             or proficiency of specific subject matter. For example, in             one embodiment, the Online Social Education System may             evaluate the student based on his or her performance on             practice tool or test, and may use the evaluation results to             dynamically select, modify, and/or filter selected posts             which are displayed on the user's personalized Interactive             Study Wall. For example, if the Online Social Education             System determines that a given user is less proficient in             nonlinear functions, the system may dynamically filter the             posts displayed on the user's Interactive Study Wall to             cause more posts relating to nonlinear functions to be             displayed on the user's Interactive Study Wall.         -   In some embodiments, this may also be based on “pre-test”             that asks students to self-assess their confidence level on             given problems. In some embodiments, this may also be based             on “self-assessment” such as, for example, student checking             off what they understand/don't understand.         -   Interactive Study Wall users can mark posts as             “high/medium/low” or “conceptual” vs. “skills-focused” to             identify the perceived level of difficulty or complexity             with a given post, which may be shared with other users, and             may also be utilized by the Online Social Education System.             In some embodiments, Moderators can monitor these             assignments for accuracy.         -   In this way, the Online Social Education System may improve             some aspects of students academic performance and may create             a sense of connectedness that promotes active learning.         -   Although other social networks may provide features for             enabling users to “like” selected posts, one important             distinction between such social networks and the Online             Social Education System is that, in the Online Social             Education System, the user's interests and needs are             continually shifting and changing as the user continues to             learn and digest new educational curriculum. For example, if             a user “likes” a baking-related post on Facebook, Facebook             system may show the user more posts about baking, and it is             likely that the user will probably still like baking 3             months later. In contrast, a student user of the Interactive             Study Wall may “like” a post relating to algebraic equations             one month (e.g., while the student is studying algebraic             equations in class), but may no longer be interested in             viewing posts relating to algebraic equations three months             later, for example, because the student has moved on to             studying other subject matter. Accordingly, the Online             Social Education System is configured or designed to take             into account that the student users are continually             learning, and are moving through different curriculum in             their classrooms. In this way, the Online Social Education             System is able to provide dynamically changing, personalized             content for each respective user or groups of users (e.g.,             of a given classroom, grade, etc.) which is substantially             relevant to the specific curriculum which the user is             currently studying, and relevant to the current needs and             interests of the user. For example:

Students mastering certain topics—posts relating to those topics are filtered out from the user's Interactive Study Wall “feed”.

Students identified as having issues with certain topic—posts relating to those topics are included in the user's Interactive Study Wall “feed”.

Students identified as having similar “Learning Profiles” may view posts from similar learning profile students.

Students' academic schedule given the time of year Study Wall is accessed

-   -   Interactive Study Wall Filtering and Filtered Interactive Study         Wall Feeds         -   Typically, currently existing online discussion boards are             either organized around a topic, or organized around a             community. This means users either have to find appropriate             forum to ask question(s), or can only get answers from             members of an existing community.         -   In contrast, in at least one embodiment of the Interactive             Study Wall, teachers all use the same Interactive Study Wall             with their respective students, but it's a shared             Interactive Study Wall across multiple schools, districts,             and/or states or any given/designated subgroup. For example,             students and teachers in the state of Florida may use a             single Interactive Study Wall to collaborate with each             other, and the Interactive Study Wall may be configured or             designed to automatically and/or dynamically filter posts             displayed on each respective user's Interactive Study Wall             “Feed” so that only relevant and/or appropriate posts are             displayed to each respective user, based on various criteria             such as, for example, one or more of the following (or             combinations thereof):             -   class;             -   grade level;             -   school;             -   teacher;             -   school district;             -   geographic region;             -   user experience level (e.g., novice vs. advanced user);             -   number of Karma points accrued;             -   user's current education curriculum;             -   user's current state standards;             -   etc.         -   In at least some embodiments, the Interactive Study Wall may             also provide functionality for enabling users to define or             configure various filtering rules and/or filtering             parameters.         -   In at least some embodiments, some levels of administrators             (e.g. Study Experts) may set filtering parameters for other             users.         -   In at least some embodiments, Interactive Study Wall may             also provide functionality for enabling users to search for             key words or tags of post.         -   In at least some embodiments, Interactive Study Wall may             also provide functionality for recommending to a given user             one or more video tutorials, where such recommendations may             be based, at least partially upon the subject matter or             relevancy of posts which have been (or are being) viewed by             that user or that the user himself has generated.     -   In at least some embodiments, the Interactive Study Wall may be         configured or designed to provide or assign different roles for         different users of the Interactive Study Wall. Examples of such         different roles may include, for example: Students, Teachers,         Study Experts, etc. In at least some embodiments, each different         role may have associated therewith a respectively different set         of Interactive Study Wall permissions, privileges, and tools for         accessing, viewing, and filtering posted Interactive Study Wall         content and user activities. For example, in one embodiment,         only Study Experts may be provided with ability to close         selected threads, or mark them as complete/reviewed/answered         (e.g., by commenting on or liking the last post in a given         thread). A Study Expert may also filter the wall to see only         posts that have not been completed/reviewed/answered by a Study         Expert to ensure that no posts remain unanswered.     -   By using the various Online Education techniques described         herein, the Online Social Education System may be configured or         designed to achieve an optimum balance between Human interaction         and automated systems.     -   Protected Collaboration and Security Features         -   Non-clickable profiles. Users may be prevented from viewing             or accessing profile information relating to other users of             the Interactive Study Wall. This may help to minimize             security threats to children/student users.         -   The use of avatars in place of profile pictures to help             protect the identity of children/student users.         -   Private conversations or private messaging between users may             be prevented.         -   Aspects of user identity may be masked but not anonymous             (e.g., concealing last name of user, concealing user's             school associated, but displaying city where user's school             is located, allowing students to choose a nickname while             their real identity is still available for admins, teachers,             Study Experts, etc.)         -   Features that encourage positivity and/or discourage             negativity.         -   Friending between users may be prevented.         -   All conversations may be publically accessible and viewable.             No private posts.         -   User identity authenticated from 3^(rd) party system (e.g.,             School district system) to prevent anonymity or             impersonation of other students.         -   Duplicate posts allowed so as to allow students to easily             ask their questions w/out having to research prior             topics/posts         -   Some information may be available to a given subset of users             and not the general population of users (for instance, all             users in a student's district may see the student's full             name, but for all other users, they can only see the             student's first name and last initial.)     -   Features Relating to Managing Posts/Conversations of Interactive         Study Wall         -   In at least one embodiment, the Online Social Education             System may include functionality for enabling moderators and             Study Experts to manage Interactive Study Wall posts,             threads, and conversations. For example, in at least one             embodiment, the Interactive Study Wall may be configured or             designed to automatically close a discussion thread upon             detection of various events/conditions such as, for example,             one or more of the following (or combinations thereof):             -   when a Study Expert or Teacher is the last person to                 post a comment in the discussion thread;             -   when a Study Expert or Teacher clicks on a “like” icon                 or other designated button/icon associated with the                 discussion thread.             -   when a Study Expert of Teacher hits a button “closing”                 the comment.         -   In at least some embodiments, the Online Social Education             System may be configured or designed to provide             functionality for providing automatic and/or manual closing             of Interactive Study Wall threads. For example, in one             embodiment, a Study Expert may “like” a posted comment of a             discussion thread (e.g., by clicking on “Like” object 1733,             FIG. 17) to indicate to the system that the discussion             thread is considered “closed” or “answered”. In some             embodiments, teachers may also be permitted to “like” a             posted comment of a discussion thread to indicate to the             system that the discussion thread is considered “closed” or             “answered”. In some embodiments, the Online Social Education             System may determine that a particular discussion thread is             considered to be “closed” or “answered” only if the most             recently posted comment is from the Study Expert (or             teacher), and Study Expert (or teacher) has “liked” this             comment.         -   In some embodiments, users may be allowed to subsequently             post comments to discussion threads which are considered by             the system to be “closed” or “answered”.         -   In some embodiments, users may not be allowed to             subsequently post comments to discussion threads which are             considered by the system to be “closed” or “answered”.         -   In some embodiments, a “closed” or “answered” discussion             thread may be automatically reopened (e.g., status of             discussion thread automatically changed to “open” or             “unanswered”) if a user posts a subsequent comment to that             discussion thread. In some embodiments:             -   a closed post/discussion is considered “answered”             -   subsequent question could re-open post (change status to                 “unanswered”)             -   the Online Social Education System may also be                 configured or designed to analyze punctuation a posted                 comments to automatically and/or dynamically determine                 the status of post as “answered” or “unanswered”.         -   In some embodiments, a post may be considered “closed” if             last person on thread is Study Expert (or teacher).         -   In some embodiments, a Study Expert can mark thread as             closed (meaning thread is considered to be “answered”.)         -   In some embodiments, the Online Social Education System may             automatically scan posted comments/questions to identify             and/or recognize references to other posts of the             Interactive Study Wall (e.g., “Please refer to Post             #351781”), and may automatically and dynamically convert             such references to hyperlinks to enable users to click on             such hyperlinked references to navigate directly to the             referenced post(s).     -   Interactive Study Wall discussion board functionality which, for         example, may be restricted to specific video or topic, and not         personalized dependent on the needs/interests of user.     -   Collaborative, non-hierarchical Interactive Study Wall features.         For example, the Interactive Study Wall may be configured or         designed to enable teachers to use the Interactive Study Wall to         interact with their students, but the Wall may be configured as         a shared Wall across school, district, state, country, etc.,         thereby creating a substantially collaborative and open         environment among all users, while simultaneously maximizing         security for students.     -   Filtering functionality for enabling personalization of users'         Interactive Study Wall interactions, such as, for example,         filtering posts to specific students (e.g. based on level of         student, student's district, school, course enrollment, etc.).         In some embodiments, filtering personalization for one or more         students/users may be based, at least partially, on one or more         of the following criteria (or combinations thereof):         -   posts for which a student/user has flagged as being of             interest (e.g., user has clicked on “like” button);         -   posts with which a student/user has actively             engaged/interacted;         -   student performance (e.g., how well student performs on             practice tools);         -   student inputs/self-assessment;         -   tags/classifications associated with one or more Interactive             Study Wall posts (e.g., high difficulty, medium difficulty,             low difficulty, conceptual, skills-based, standards (e.g.             Common Core Math, state-based standards, geometry, algebra,             fractions, etc.)     -   Dynamic whiteboard functionality. For example, in at least one         embodiment, the Interactive Study Wall may include functionality         for providing users with access to a dynamic Whiteboard GUI         which may be configured or designed to provide various tools for         enabling users to initiate various activities such as, for         example, one or more of the following (or combinations thereof):         -   draw diagrams;         -   draw graphs, either freehand or using pre-set grid lines         -   plot graphs based upon data points, equations, etc. either             freehand or by using a computer program;         -   capture and upload images (e.g., via mobile device, email,             MMS, etc.);         -   record and upload videos (e.g., via mobile device, email,             MMS, etc.);         -   record and upload voice memos (e.g., via mobile device,             email, MMS, etc.);         -   record and upload annotated/animated whiteboard diagrams;         -   Click button to bring up dynamic white board, which is             recorded and displayed on wall in connection with post.         -   Ability to view and playback entire recording embedded in             wall discussion board         -   Providing drawing and graphic tools         -   Gridlines feature;         -   Ability to draw on/annotate over existing image;         -   etc.

In at least one embodiment, where multiple whiteboard pages exist, the dynamic whiteboard may provide navigation links for enabling users to navigate to specific pages, page positions, previously bookmarked pages, etc.

-   -   Leaderboard Functionality. In at least some embodiments, Karma         points and/or other awards awarded to users of the Interactive         Study Wall may be used to generate leaderboard rankings among         selected groups of users. In at least some embodiments, the         Online Social Education System may include various types of         Leaderboard Functionality, which may be configured or designed         to display various types of rankings among selected groups of         users.         -   For example, in at least one embodiment, the Interactive             Study Wall leaderboard results/rankings may be filtered             according to various criteria such as, for example, one or             more of the following (or combinations thereof):             -   class;             -   subject;             -   grade level;             -   students in my class;             -   students in my school;             -   students in my district;             -   school;             -   school district;             -   geographic region;             -   state;             -   district middle schools;             -   district high schools;             -   district elementary schools;             -   user experience level (e.g., novice vs. advanced user);             -   user demographics such as, for example, sex, age,                 location, etc.;             -   time range (e.g. lifetime vs. monthly points);             -   EOC/assessment;             -   etc.         -   Leaderboard Functionality may be configured or designed to             provide the ability for students to compete against their             peers (classmates, school mate, etc.).         -   Interactive Study Wall leaderboard shows middle school vs.             high school rankings depending on the viewing user's grade             level (e.g. middle school student will see middle school             leaderboard results). In another embodiment, student users             may be able to see all students or middle vs. high school             leaderboards.         -   Personalized leaderboard results/rankings may be             automatically and/or dynamically displayed to a given user,             based on the identity of the viewing user (and/or other             criteria associated with that user);         -   Prizes can be awarded by school, class, period, teacher,             district, state, etc. In some embodiments, prizes can be             awarded by teacher or by school or district/school system             (e.g. charter organizations).         -   Leaderboard Functionality provides additional incentive for             users to proactively participate in conversations and other             interactions of the Interactive Study Wall.     -   Status Update Functionality such as, for example, “check         in”/“check out”, “Do Not Disturb”, etc.         -   Using social media as avenue towards studying is effective,             but students may be distracted by friends who want to chat             during study time.         -   In some embodiments, the Online Social Education System may             be configured or designed to include functionality for             enabling Students to post updates about their current status             (e.g., “check in”, “check out”, “available”, “Do Not             Disturb”, etc.). In some embodiments, the Online Social             Education System may be configured or designed to receive             user status updates, and post such status updates to other             social media networks such as Facebook, Twitter, etc.         -   In some embodiments, the Online Social Education System may             be configured or designed to include functionality for             enabling users to access educational materials from other             online educational platforms (e.g. Pearson, Khan Academy,             etc.). In this way, students may selectively use educational             materials from a variety of different online educational             platforms without having to separately sign into each             different online educational platform in order to study.         -   In some embodiments, the Online Social Education System may             be configured to block a students' access to distracting             media when a student checks in to study (e.g., disable             browsing on non-educational sites, enable “do not disturb”             mode on mobile devices, block social media access on mobile             devices).         -   In some embodiments, the Online Social Education System may             be configured to use geofencing to automatically check             in/check out students when they enter a specific location,             such as a library.     -   Automated functionality for detecting and preventing         students/users cheating with other students/users. For example,         in one embodiment, the OSES Server may be configured or designed         to analyze and reject reply posts which have been identified as         not meeting or satisfying a specified minimum character count.         In some embodiments, the Online Social Education System may be         configured or designed to include various mechanisms for         preventing or prohibiting discussion walls from serving as         forums for facilitating cheating (e.g., where students simply         type in answers to math problem). Examples of such cheating         prevention mechanisms may include, but are not limited to, one         or more of the following (or combinations thereof):         -   Imposing minimum character limits/requirements on response             posts to prevent cheating.         -   Mechanisms for discouraging giving away answer or             discouraging “cheating”.         -   Students can flag inappropriate response.         -   Automated pattern matching for posted answers.         -   Automated functionality for detecting and preventing             students/users from posting answers/solutions to homework             and/or test related questions.         -   Automated functionality for detecting copying/pasting from             other sites.         -   Automated mechanisms for preventing students from deleting a             post once it has been replied to. This ensures that the post             will remain public and the student will be discouraged from             cheating as there will be a permanent record of the             activity.     -   Automated student identification authentication.     -   Automated student-school enrollment verification.     -   Speed Test/Video Player         -   Video players which are overly feature-heavy are distracting             to students and detract from the video viewing experience             (need to save screen space, especially in mobile education             environment vs. other markets). However, it is desirable to             determine/detect if video playback is being affected because             user's internet is too slow to support video viewing (e.g.,             for troubleshooting purposes).         -   In some embodiments, the Online Social Education System may             be configured or designed to include functionality for             enabling a speed test to be automatically conducted when the             system detects a potential issue with video             playback/streaming to a given user's system.         -   The user may also be informed that he or she may need to             find a faster source of internet. Such functionality helps             cut down customer service tech calls. This             selectivity/flexibility allows for maximize screen space             usage for majority of the time. Speed test only pops up when             necessary.     -   Automatic Pause of Video Playback—When user hits mute on video         or computer, or when it detect headset is unplugged, the video         automatically pauses so user does not miss any material.     -   Dynamically customized interfaces. In some embodiments, the         Online Social Education System may be configured or designed to         include functionality for identifying a user's current         activities on the Interactive Study Wall, and providing         dynamically customized interfaces specifically configured or         designed to facilitate a the user with initiating or performing         tasks relating to the user's current activities. Similarly, the         Online Social Education System may be configured or designed to         include functionality for identifying aspects of a user's         current educational curriculum, and providing dynamically         customized interfaces specifically configured or designed to         facilitate a the user with initiating or performing tasks         relating to the user's current educational curriculum (e.g.,         subject matter which a student is currently studying; standards;         school curriculum; etc.). For example, in some embodiments, the         OSES Server may be configured or designed to generate and         display customized Interactive Study Wall GUIs to different         users, in which one or more of the GUIs includes (or provides         easy access to) a customized set of symbols, characters,         equations, and/or other content which may facilitate a given         user in initiating or performing tasks relating to the user's         current activities and/or educational curriculum. For example:         -   a student user studying chemistry student may be presented             with a customized GUI which includes an interactive Periodic             Table, which may provide access to functionality for             facilitating the user in creating or editing             chemistry-related formulas and/or expressions.         -   a student user studying algebra student may be presented             with a customized GUI which includes a list of symbols             representing different mathematical functions, and which may             provide access to functionality for facilitating the user in             creating or editing algebraic-related formulas and/or             expressions.     -   And/or other aspects/features described and/or referenced         herein.

One of the problems, which the Online Education techniques described herein helps to solve relates to the issues of scaling human interaction with mass online education. As described in greater detail herein, the Online Social Education System may be configured or designed to provide a hierarchy of participants, which facilitates human interaction scaling. For example, Karma points may be awarded by human Study Experts, and given out to human users (e.g., student users) who provide appropriate degrees of assistance, but not too much (e.g., explaining how to reach the answer, as opposed to simply stating the answer). The Online Social Education System also facilitates collaborative interaction among peer student users.

According to different embodiments, the Online Social Education System 100 may include a plurality of different types of components, devices, modules, processes, systems, etc., which, for example, may be implemented and/or instantiated via the use of hardware and/or combinations of hardware and software. For example, as illustrated in the example embodiment of FIG. 1, the Online Social Education System may include one or more of the following types of systems, components, devices, processes, etc. (or combinations thereof):

-   -   Online Social Education System (OSES) (s) 120—In at least one         embodiment, the Online Education Server System(s) may be         operable to perform and/or implement various types of Online         Social Education functions, operations, actions, and/or other         features such as those described or referenced herein.     -   Public/Private Education Network(s) 140, including, for example,         Student Information System(s) (SIS), Student Data Management         Networks, etc.     -   User Computer System(s) 130—In at least one embodiment, the User         Computer System(s) may be operable to perform and/or implement         various types of Online Social Education functions, operations,         actions, and/or other features such as those described or         referenced herein.     -   3^(rd) Party System(s) 150, including, for example social         networks (e.g., Facebook, Twitter, You Tube, etc.), Online         conferencing and webinar systems (e.g., Webex, Adobe Connect,         Skype, etc.), etc.     -   Internet & Cellular Network(s) 110     -   Remote Database System(s)180     -   Remote Server System(s)/Service(s)170, which, for example, may         include, but are not limited to, one or more of the following         (or combinations thereof):         -   Content provider servers/services         -   Media streaming servers/services         -   Database storage/access/query servers/services         -   Financial transaction servers/services         -   Payment gateway servers/services         -   Electronic commerce servers/services         -   Event management/scheduling servers/services         -   Etc.     -   User Mobile Device(s) 160—In at least one embodiment, the User         Mobile Device(s) may be operable to perform and/or implement         various types of Online Social Education functions, operations,         actions, and/or other features such as those described or         referenced herein.     -   etc.

According to different embodiments, at least a portion of the various types of Online Social Education functions, operations, actions, and/or other features provided by the Online Social Education System may be implemented at one or more client systems(s), at one or more server systems (s), and/or combinations thereof.

In at least one embodiment, the Online Social Education System may be operable to utilize and/or generate various different types of data and/or other types of information when performing specific tasks and/or operations. This may include, for example, input data/information and/or output data/information. For example, in at least one embodiment, the Online Social Education System may be operable to access, process, and/or otherwise utilize information from one or more different types of sources, such as, for example, one or more local and/or remote memories, devices and/or systems. Additionally, in at least one embodiment, the Online Social Education System may be operable to generate one or more different types of output data/information, which, for example, may be stored in memory of one or more local and/or remote devices and/or systems. Examples of different types of input data/information and/or output data/information which may be accessed and/or utilized by the Online Social Education System may include, but are not limited to, one or more of those described and/or referenced herein.

According to specific embodiments, multiple instances or threads of the Interactive Study Wall may be concurrently implemented and/or initiated via the use of one or more processors and/or other combinations of hardware and/or hardware and software. For example, in at least some embodiments, various aspects, features, and/or functionalities of the Interactive Study Wall may be performed, implemented and/or initiated by one or more of the various systems, components, systems, devices, procedures, processes, etc., described and/or referenced herein.

In at least one embodiment, a given instance of the Online Social Education System may access and/or utilize information from one or more associated databases. In at least one embodiment, at least a portion of the database information may be accessed via communication with one or more local and/or remote memory devices. Examples of different types of data which may be accessed by the Online Social Education System may include, but are not limited to, one or more of those described and/or referenced herein.

According to different embodiments, various different types of encryption/decryption techniques may be used to facilitate secure communications between devices in Online Social Education System(s) and/or Online Social Education Network(s). Examples of the various types of security techniques which may be used may include, but are not limited to, one or more of the following (or combinations thereof): random number generators, SHA-1 (Secured Hashing Algorithm), MD2, MD5, DES (Digital Encryption Standard), 3DES (Triple DES), RC4 (Rivest Cipher), ARC4 (related to RC4), TKIP (Temporal Key Integrity Protocol, uses RC4), AES (Advanced Encryption Standard), RSA, DSA, DH, NTRU, and ECC (elliptic curve cryptography), PKA (Private Key Authentication), Device-Unique Secret Key and other cryptographic key data, SSL, etc. Other security features contemplated may include use of well-known hardware-based and/or software-based security components, and/or any other known or yet to be devised security and/or hardware and encryption/decryption processes implemented in hardware and/or software.

According to different embodiments, one or more different threads or instances of the Interactive Study Wall functionality may be initiated in response to detection of one or more conditions or events satisfying one or more different types of minimum threshold criteria for triggering initiation of at least one action and/or operation. Various examples of conditions or events which may trigger initiation and/or implementation of one or more different threads or instances of the Interactive Study Wall functionality may include, but are not limited to, one or more of those described and/or referenced herein.

It may be appreciated that the Online Social Education System of FIG. 1 is but one example from a wide range of Online Social Education System embodiments, which may be implemented. Other embodiments of the Online Social Education System (not shown) may include additional, fewer and/or different components/features that those illustrated in the example Online Social Education System embodiment of FIG. 1.

Generally, the video presentation and digital composting techniques described herein may be implemented in hardware and/or hardware+software. For example, they can be implemented in an operating system kernel, in a separate user process, in a library package bound into network applications, on a specially constructed machine, or on a network interface card. In a specific embodiment, various aspects described herein may be implemented in software such as an operating system or in an application running on an operating system.

Hardware and/or software+hardware hybrid embodiments of the video presentation and digital composting techniques described herein may be implemented on a general-purpose programmable machine selectively activated or reconfigured by a computer program stored in memory. Such programmable machine may include, for example, mobile or handheld computing systems, PDA, smart phones, notebook computers, tablets, netbooks, desktop computing systems, server systems, cloud computing systems, network devices, etc.

Online Social Education GUIs

FIGS. 6-10 and 11-13 illustrate example screenshots of various GUIs, which may be used for facilitating activities relating to one or more of the online social education aspects disclosed herein.

FIGS. 16A-E illustrate example screenshots of various GUIs, which may be used for facilitating activities relating to one or more of the video presentation and digital composting aspects disclosed herein.

In at least one embodiment, at least a portion of the GUIs may be configured or designed for use at one or more user computer devices and/or mobile devices.

For illustrative purposes, each of the example screenshots of FIGS. 6-10 and 11-13 relate to specific embodiments of an Interactive Study Wall, which has been specifically configured for facilitating online social education relating to algebra (herein referred to as “Algebra Wall”). However, it will be appreciated that other embodiments of Interactive Study Walls may be specifically configured for facilitating online social education relating to other educational topics/standards/curriculum. Additionally, as illustrated and described with respect to the example screenshots of FIGS. 6-10 and 11-13, the display of Interactive Study Wall content and/or access to various Interactive Study Wall functionality may differ, for example, based on the user's identity and/or user classification type (e.g., Teacher, Study Expert, Student). Additionally, in at least some embodiments, at least a portion of the Interactive Study Wall content, which is displayed to a given user, may be dynamically generated and/or dynamically filtered.

FIG. 6 shows an example screenshot of a Student Interactive Study Wall GUI 601 in accordance with a specific embodiment. According to different embodiments, the Student Interactive Study Wall GUI 601 may be configured or designed to enable students to perform a variety of activities such as, for example:

-   -   Browsing questions, comments, threads and discussions posted to         the Interactive Study Wall;     -   Viewing Interactive Study Wall posts (e.g., 630) such as those         posted by the student user, other students, teachers, and/or         Study Experts;     -   Viewing comments/replies to Interactive Study Wall posts (e.g.,         640, 642, 644, 646) such as those posted by the student user,         other students, teachers, and/or Study Experts;     -   Searching for posts relating to specific content, keywords,         topics, etc.;     -   Drafting and posting questions to the Interactive Study Wall;     -   Drafting and posting comments or replies to the Interactive         Study Wall;     -   And/or other types of activities described and/or referenced         herein.

As illustrated in the example embodiment of FIG. 6, the Student Interactive Study Wall GUI 601 may be configured or designed to provide a student user with access to a variety of functions and/or features of the Interactive Study Wall such as, for example, one or more of the following (or combinations thereof):

-   -   Access to tutorials, videos, and other educational content 602     -   Access to Interactive Study Wall Leaderboard(s) 606     -   Keyword search functionality 608     -   Interfaces (e.g., 610, 650) for enabling student user to         initiate new posts (e.g., via 610), post         comments/questions/replies to existing threads/posts (e.g., via         650), etc.     -   As illustrated in the example embodiment of FIG. 6, the         Interface portions 610 and 650 may include features and/or         functionality for enabling the student user to initiate and/or         perform one or more of the following operation(s)/action(s) (or         combinations thereof):         -   Select, upload and post attachments (614).         -   Select, capture, edit, annotate, upload and post images or             photos (615).         -   Create and post equations via equation editor functionality             (616).         -   Record, edit, upload and post video content (612).         -   Access various types of whiteboard functionality (e.g., 613,             617), which, for example, may be used to create and post             drawings, graphs, animated tutorials, etc. For example, as             illustrated in the example embodiment of FIG. 6, Student             Interactive Study Wall GUI 601 includes buttons or icons             (e.g., Whiteboard Buttons 613, 653) which, when selected by             the user, may provide the user with access to various types             of whiteboard functionality, as illustrated, for example, in             the Interactive Whiteboard GUI 901 of FIG. 9. According to             different embodiments, whiteboard functionality may be built             directly into the user interface, which, for example, may be             configured or designed to as a discussion wall, a discussion             board, a discussion thread, a chat box, etc.         -   Post an image or video captured from the user's smartphone             (621).         -   Post an image or video captured from the user's computer,             tablet, etc. (619).         -   In at least one embodiment, students may preview their post             before publishing their post on the Interactive Study Wall.     -   Post/Thread filtering functionality (e.g., 620) for enabling         student users to selectively include or exclude display of         posts/threads by defining, configuring and/or setting various         filtering criteria such as, for example, one or more of the         following (or combinations thereof):         -   Students' Teacher         -   Students' Section/Class         -   Students' School         -   Students' District         -   Students' State         -   Students' Grade Level         -   Students' Educational curriculum such as, for example:             class/grade/school/textbook/state curriculum information.         -   Student's profile data such as, for example: User ID, User             email address, User IP address, User messaging address, etc.         -   Students' Region (e.g. Panhandle, Southern Florida, etc.)         -   Students' Consortiums (e.g. NEFEC schools, etc.)         -   Students' School Rankings         -   Students' Gender         -   Students' Demographics         -   Students' test scores from previous formative assessments             (e.g. benchmarks)         -   Students' test scores from previous summative assessments             (e.g. end of course exams)         -   Post difficulty level (e.g., as ranked by algorithms)         -   Post difficulty level (e.g., as ranked by humans)         -   Number of posts started by students         -   Number of comments (replies) made by students         -   Number of karma points made by students         -   Number of videos watched by students         -   Difficulty level of videos watched by students         -   Number of “Test Yourself!” questions attempted by students         -   Number of “Test Yourself!” questions correctly answered by             students         -   Percentage of “Test Yourself!” questions correctly answered             by students         -   Posts/threads which have been identified as being closed or             correctly answered         -   Posts/threads which have been identified as still being open             or unanswered,         -   Etc.     -   User Award/Incentive Functionality (“Karma points”)         -   Students may be allocated points (e.g., “Karma points”) or             awards or incentives for posting questions and/or for             answering peers' questions on the Interactive Study Wall. In             some embodiments, the Interactive Study Wall GUIs may             include functionality for enabling Study Experts or             moderators to award students with differing amounts of             “Karma points” for asking questions and/or posting comments             in response to questions/comments posted by other users.         -   For example, as illustrated in the example embodiment of             FIG. 6, each student user has associated therewith a             respective Karma Point score (e.g., 635, 641, 643, 647)             which may represent that user's current, cumulative Karma             Point total.         -   In some embodiments, the cumulative Karma Point score may be             automatically calculated and displayed by the OSES Server             based on Karma Point awarded to each user over a given time             interval (such as, for example, a range of days, a range of             months, lifetime, a range of time corresponding to the             beginning and end of a school year, etc.).

FIG. 7 shows an example screenshot of a Teacher Interactive Study Wall GUI 701 in accordance with a specific embodiment. According to different embodiments, the Teacher Interactive Study Wall GUI 701 may be configured or designed to enable school teachers and/or other school educators to perform a variety of activities such as, for example:

-   -   Browsing questions, comments, threads and discussions posted to         the Interactive Study Wall;     -   Viewing Interactive Study Wall posts (e.g., 730) such as those         posted by the Teacher user, students, other teachers, and/or         Study Experts;     -   Viewing comments/replies to Interactive Study Wall posts (e.g.,         740, 742, 744, 746) such as those posted by the Teacher user,         students, other teachers, and/or Study Experts;     -   Searching for posts relating to specific content, keywords,         topics, etc.;     -   Drafting and posting questions to the Interactive Study Wall;     -   Drafting and posting comments or replies to the Interactive         Study Wall;     -   And/or other types of activities described and/or referenced         herein.

In at least one embodiment, a “Teacher” as described herein may refer to an educator (e.g., teacher, professor, instructor, math coach, etc.) who is a member of a school staff or administration. Typically, such Teachers may have associated identities and/or profiles in the school district's computer network(s), which may be used to authenticate and verify a Teacher's credentials.

As illustrated in the example embodiment of FIG. 7, the Teacher Interactive Study Wall GUI 701 may be configured or designed to provide a Teacher user with access to a variety of functions and/or features of the Interactive Study Wall such as, for example, one or more of the following (or combinations thereof):

-   -   Access to tutorials, videos, and other educational content (702)     -   Access to Interactive Study Wall Leaderboard(s) (706)     -   Keyword search functionality (708)     -   Interfaces (e.g., 710, 750) for enabling Teacher user to         initiate new posts (e.g., via 710), post         comments/questions/replies to existing threads/posts (e.g., via         750), etc.     -   As illustrated in the example embodiment of FIG. 7, the         Interface portions 710 and 750 may include features and/or         functionality for enabling the Teacher user to initiate and/or         perform one or more of the following operation(s)/action(s) (or         combinations thereof):         -   Select, upload and post attachments (714).         -   Select, capture, edit, annotate, upload and post images or             photos (715).         -   Create and post equations via equation editor functionality             (716).         -   Record, edit, upload and post video content (712).         -   Access various types of whiteboard functionality (e.g., 713,             717), which, for example, may be used to create and post             drawings, graphs, animated tutorials, etc. For example, as             illustrated in the example embodiment of FIG. 7, Teacher             Interactive Study Wall GUI 701 includes buttons or icons             (e.g., Whiteboard Buttons 713, 753) which, when selected by             the user, may provide the user with access to various types             of whiteboard functionality, as illustrated, for example, in             the Interactive Whiteboard GUI 901 of FIG. 9. According to             different embodiments, whiteboard functionality may be built             directly into the user interface, which, for example, may be             configured or designed to as a discussion wall, a discussion             board, a discussion thread, a chat box, etc.         -   Post an image or video captured from the user's smartphone             (721).         -   Post an image or video captured from the user's computer,             tablet, etc. (719).         -   In at least one embodiment, Teachers may preview their post             before publishing their post on the Interactive Study Wall.     -   Post/Thread filtering functionality (e.g., 720) for enabling         Teacher users to selectively include or exclude display of         posts/threads by defining, configuring and/or setting various         filtering criteria such as, for example, one or more of the         following (or combinations thereof):         -   Students' Teacher         -   Students' Section/Class         -   Students' School         -   Students' District         -   Students' Grade Level         -   Students' Region (e.g. Panhandle, Southern Florida, etc.)         -   Students' District Consortiums (e.g. NEFEC schools, etc.)         -   Students' Educational curriculum such as, for example:             class/grade/school/textbook/state curriculum information.         -   Student's profile data such as, for example: User ID, User             email address, User IP address, User messaging address, etc.         -   Students' School Rankings         -   Students' Gender         -   Students' Demographics         -   Students' test scores from previous formative assessments             (e.g. benchmarks)         -   Students' test scores from previous summative assessments             (e.g. end of course exams)         -   Post difficulty level (e.g., as ranked by algorithms)         -   Post difficulty level (e.g., as ranked by humans)         -   Number of posts started by Students         -   Number of comments (replies) made by Students         -   Number of karma points made by Students         -   Number of videos watched by Students         -   Difficulty level of videos watched by Students         -   Number of “Test Yourself!” questions attempted by Students         -   Number of “Test Yourself!” questions correctly answered by             Students         -   Percentage of “Test Yourself!” questions correctly answered             by Students         -   Teachers' Section/Class         -   Teachers' School         -   Teachers' District         -   Teachers' Grade Level         -   Teachers' Region (e.g. Panhandle, Southern Florida, etc.)         -   Teachers' District Consortiums (e.g. NEFEC schools, etc.)         -   Teachers' School Rankings         -   Teachers' Gender         -   Teachers' Demographics         -   Post difficulty level (e.g., as ranked by algorithms)         -   Post difficulty level (e.g., as ranked by humans)         -   Number of posts started by Students         -   Number of comments (replies) made by Students         -   Number of karma points made by Students         -   Number of videos watched by Students         -   Difficulty level of videos watched by Students         -   Number of “Test Yourself!” questions attempted by Students         -   Number of “Test Yourself!” questions correctly answered by             Students         -   Percentage of “Test Yourself!” questions correctly answered             by Students         -   Number of posts started by Teachers         -   Number of comments (replies) made by Teachers         -   Number of karma points awarded by Teachers         -   Number of videos watched by Teachers         -   Difficulty level of videos watched by Teachers         -   Posts/threads which have been identified as being closed or             correctly answered         -   Posts/threads which have been identified as still being open             or unanswered,         -   Etc.     -   In at least some embodiments, teachers and Study Experts may be         provided with functionality for filtering posts based on one or         more of the following types of filtering criteria (or         combinations thereof):         -   Classroom,         -   Teacher,         -   Grade,         -   Section,         -   School,         -   District,         -   State,         -   Etc.     -   User Award/Incentive Functionality (“Karma points”)         -   As illustrated in the example embodiment of FIG. 7, the             Teacher Interactive Study Wall GUI 701 may be configured or             designed to display Student Karma Point information             including respective Karma Point scores (e.g., 735, 741,             743, 747), which represent that user's current Karma Point             score.         -   In some embodiments, the Online Social Education System may             be configured or designed to enable selected teachers to             award Karma points to selected student users or selected             groups of student users. However, the Online Social             Education System may include automated mechanisms for             preventing or discouraging teachers from showing favoritism             in awarding Karma points to their own students. For example,             in one embodiment, the OSES Server may allow teachers to             award Karma points to students from other schools, but may             prevent teacher from awarding Karma points to students who             attend the same school as the teacher.

FIG. 8 shows an example screenshot of a Study Expert Interactive Study Wall GUI 801 in accordance with a specific embodiment. According to different embodiments, the Study Expert Interactive Study Wall GUI 801 may be configured or designed to enable school Study Experts and/or other teachers and school educators to perform a variety of activities such as, for example, one or more of those described and/or referenced herein with respect to the Teacher Interactive Study Wall GUI 701 of FIG. 7.

In at least one embodiment, a “Study Expert” as described herein may refer to any third-party person who has been provided with proper authorization/authority (e.g., from the Interactive Study Wall administration) to serve as an “educational moderator/facilitator” of one or more portions of the Interactive Study Wall.

As illustrated in the example embodiment of FIG. 8, the Study Expert Interactive Study Wall GUI 801 may be configured or designed to provide a Study Expert user with access to a variety of functions and/or features of the Interactive Study Wall such as, for example, one or more of the following (or combinations thereof):

-   -   Access to tutorials, videos, and other educational content (802)     -   Access to Interactive Study Wall Leaderboard(s) (806)     -   Keyword search functionality 808     -   Interfaces (e.g., 810, 850) for enabling Study Expert user to         initiate new posts (e.g., via 810), post         comments/questions/replies to existing threads/posts (e.g., via         850), etc.     -   As illustrated in the example embodiment of FIG. 8, the         Interface portions 810 and 850 may include features and/or         functionality for enabling the Study Expert user to initiate         and/or perform one or more of the following         operation(s)/action(s) (or combinations thereof):         -   Select, upload and post attachments (814).         -   Select, capture, edit, annotate, upload and post images or             photos (815).         -   Create and post equations via equation editor functionality             (816).         -   Record, edit, upload and post video content (812).         -   Access various types of whiteboard functionality (e.g., 813,             817), which, for example, may be used to create and post             drawings, graphs, animated tutorials, etc. For example, as             illustrated in the example embodiment of FIG. 8, Study             Expert Interactive Study Wall GUI 801 includes buttons or             icons (e.g., Whiteboard Buttons 813, 853) which, when             selected by the user, may provide the user with access to             various types of whiteboard functionality, as illustrated,             for example, in the Interactive Whiteboard GUI 901 of             FIG. 9. According to different embodiments, whiteboard             functionality may be built directly into the user interface,             which, for example, may be configured or designed to as a             discussion wall, a discussion board, a discussion thread, a             chat box, etc.         -   Post an image or video captured from the user's smartphone             (821).         -   Post an image or video captured from the user's computer,             tablet, etc. (819).         -   In at least one embodiment, Study Experts may preview their             post before publishing their post on the Interactive Study             Wall.         -   Change the permissions level of an edited image, allowing             images to be edited by one or more specified user(s) and/or             group(s) of user(s) (e.g., one student, a group of students,             teachers associated with a specific grade, teachers             associated with a specific school, all students, all             teachers, etc.).         -   Award Karma points (and/or other incentives/rewards) to             Student users.         -   Edit posts/discussion threads.         -   Mark selected discussion threads as “closed”.         -   The ability to “pin” a post to save it to the top of the             wall to ensure maximum visibility         -   Etc.     -   Post/Thread filtering functionality (e.g., 820) for enabling         Study Expert users to selectively include or exclude display of         posts/threads by defining, configuring and/or setting various         filtering criteria such as, for example, one or more of those         described and/or referenced herein.     -   In at least some embodiments, Study Experts and Study Experts         may be provided with functionality for filtering posts based on         one or more of the following types of filtering criteria (or         combinations thereof):         -   Classroom,         -   Teacher,         -   Grade,         -   Section,         -   School,         -   District,         -   State,         -   Subject,         -   Difficulty level of questions,         -   Date,         -   Answered/Unanswered threads,         -   Posts which have been answered by a lower level moderator             but have not been         -   closed by an upper level moderator.         -   Etc.     -   User Award/Incentive Functionality (“Karma points”)         -   As illustrated in the example embodiment of FIG. 8, the             Study Expert Interactive Study Wall GUI 801 may be             configured or designed to display Student Karma Point             information including respective Karma Point scores (e.g.,             835, 841, 843, 847), which represent that user's current             Karma Point score.         -   Additionally, as illustrated in the example embodiment of             FIG. 8, the Study Expert Interactive Study Wall GUI 801 may             be configured or designed to include functionality (e.g.,             861, 862, 863, 871, 872, 873, etc.) for enabling Study             Experts to award different incremental values of additional             Karma points (e.g., +100, +200, +500) to one or more student             users.         -   In at least some embodiments, the Interactive Study Wall may             be configured or designed to enable Study Experts (and/or             other types of moderators) to award different incremental             values of additional Karma points (e.g., +100, +200, +500)             to one or more student users for facilitating and             encouraging learning and user participation.

User Award/Incentive Functionality (“Karma Points”)

In at least one embodiment, Karma points may be awarded to users who post questions on the Interactive Study Wall (e.g., as illustrated at 1013, 1014, 115, 1016 of FIG. 10), and/or may be awarded to users who post replies or comments on the Interactive Study Wall (e.g., as illustrated at 861, 862, 863, 871, 872, 873 of FIG. 8).

In some embodiments, when a user has been awarded Karma points for a particular post, the OSES Server may automatically update the user's current and overall Karma point score by adding the current Karma point award to the user's current and overall Karma point score (e.g., corresponding to the user's current Karma point score which existed at the time when the additional Karma points were awarded to the user).

In some embodiments, the Online Social Education System may be configured or designed to include functionality for tracking Karma point award events and their corresponding Interactive Study Wall events (e.g., user posts which received Karma point awards), and for preventing duplication of Karma point awards based on the same Interactive Study Wall event(s).

In at least some embodiments, when a user has been awarded Karma points for a particular post (e.g., by a first Study Expert), the OSES Server may automatically and/or dynamically update or modify one or more of the Interactive Study Wall GUIs (e.g., of the first Study Expert, and of a second Study Expert) to prevent additional Karma points from being awarded to the user for the same post.

By way of illustration, FIG. 10 illustrate example screenshots of different Study Expert Interactive Study Wall GUIs which help illustrate the features relating to the awarding of Karma points and to the prevention of additional Karma points from being awarded for a given post (e.g. 1002). Referring first to FIG. 10, it is assumed that the user (Alexandra Smith) has posted an initial question 1002 on the Interactive Study Wall, and that a Study Expert is viewing the Interactive Study Wall discussion relating to post 1002 via Study Expert Interactive Study Wall GUI 1001. As illustrated in the example embodiment of FIG. 10, the user's current Karma point score (indicated at 1013) is zero. In this particular example, it is assumed that the user (Alexandra Smith) has not yet been awarded with Karma points for posting this question since the Study Expert Interactive Study Wall GUI 1001 includes Karma point award features/functionality (e.g., 1014, 115, 1016) for enabling the viewing Study Expert to award the user with Karma points associated with post 1002. It is then assumed that the Study Expert takes action to award the user with +100 Karma points for posting question 1002 on the Interactive Study Wall. In one embodiment, the Study Expert may award the user with +100 Karma points for posting question 1002 by clicking on the displayed “+100” object (1013). This action is detected by the OSES Server, which responds by automatically updating the user's current Karma point score by adding the current Karma point award (+100) to the user's current Karma point score (0), resulting in an updated Karma point score of 100. In other embodiments, if the Study Expert had desired to award +200 Karma points or +500 Karma points to the user (instead of +100), the Study Expert could have done so by clicking on the displayed “+200” object (1015) or “+500” object (1016), respectively.

In at least one embodiment, after the user has been awarded +100 Karma points for posting question 1002 on the Interactive Study Wall, the OSES Server may automatically update the Study Expert Interactive Study Wall GUIs (e.g., of any Study Experts who subsequently view the discussion thread relating to post 1002) to prevent additional Karma points from being awarded to the user for the same post. For example, in the specific example embodiment of FIG. 10, it is assumed that the user has already been awarded +100 Karma points for posting question 1002 on the Interactive Study Wall. Accordingly, the user's updated displayed Karma point score will be 100, and the Study Expert Interactive Study Wall GUI 1001 may be modified (e.g., by the OSES Server) to omit, remove, or prevent the display of the Karma point award features/functionality (e.g., such as that displayed 1014, 1015, 1016 of FIG. 10) to thereby to prevent additional Karma points from being awarded to the user for posting question 1002.

In at least some embodiments, the Interactive Study Wall may be configured or designed to enable Study Experts (and/or other types of moderators) to penalize users who post inappropriate questions/comments by causing different incremental values of Karma points to be subtracted from a given user's current Karma point score.

In at least some embodiments, the awarding (and/or subtracting) of Karma points by a given Study Expert may be discretionary, and may be based at least partially upon predefined guidelines, such as, for example, the Karma Points Distribution Guidelines described below.

In at least some embodiments it will be possible to give Karma points through another administrator that is not visible on the Interactive Study Wall and only accessed through an administrator tool page. That is, a Study Expert does not need to be actively viewing the Study Wall to give or take away points.

Example Karma Point Distribution Guidelines

In at least one embodiment, the Online Social Education System may be configured or designed to facilitate implementation and enforcement of a set of Karma Point Distribution Guidelines, which may govern the actions of Study Experts in awarding and distributing Karma points to users of the Interactive Study Wall. In some embodiments, the Online Social Education System may be configured or designed to include functionality for automatically awarding and/or distributing Karma points to Interactive Study Wall users based on predefined sets of rules. However, in at least some embodiments, it is desirable for Study Experts (humans) to review Interactive Study Wall posts and award Karma points in accordance with established Karma Point Distribution Guidelines. One reason for this is that Study Experts inject a human element into the points-incentives-rewards system, so if a student exhibits a new, positive behavior that is not covered explicitly in the guidelines, Study Experts are empowered to award Karma points based on their assessment of the user's behavior and/or contributions and to provide feedback for new potential guidelines. This also helps to build an ongoing and growing culture on the Wall.

Example Karma Point Granularity Groups

According to different embodiments, the value or amount of Karma points (and/or other types of user incentive awards for Interactive Study Wall participation) which are awarded or distributed (e.g., to a given Interactive Study Wall student user), may be based, at least partially, upon consideration of a various factors such as, for example, one or more of the following (or combinations thereof):

-   -   Student User's School Level (e.g. Middle School vs. High School)     -   Student Users' testing level (e.g. 1^(st) time test-taker vs.         re-takers)     -   Previous top score earners/prize winners (e.g. iPad winners)     -   Top 50 of leaderboard karma point earners     -   Student User's Experience Level (e.g. new users vs. veteran         users)     -   Students who help other students outside of their section,         school, and/or district (e.g., such activity may justify         increased Karma point awards to the helping student)

Leaderboard Functionality

In at least some embodiments, Karma Points and/or other awards awarded to users of the Interactive Study Wall may be used to generate leaderboard rankings among selected groups of users. In at least some embodiments, the Online Social Education System may include various types of Leaderboard Functionality, which may be configured or designed to display various types of rankings among selected groups of users.

-   -   For example, in at least one embodiment, the Interactive Study         Wall leaderboard results/rankings may be filtered according to         various criteria such as, for example, one or more of the         following (or combinations thereof):         -   class;         -   grade level;         -   students in my class;         -   students in my school;         -   students in my district;         -   school;         -   school district;         -   geographic region;         -   district middle schools;         -   district high schools;         -   district elementary schools;         -   user experience level (e.g., novice vs. advanced user);         -   user demographics such as, for example, sex, age, location,             etc.         -   etc.     -   Leaderboard Functionality may be configured or designed to         provide the ability for students to compete against their peers         (classmates, school mate, etc.).     -   Interactive Study Wall leaderboard shows middle school vs. high         school rankings depending on the viewing user's grade level         (e.g. middle school student will see middle school leaderboard         results).     -   Personalized leaderboard results/rankings may be automatically         and/or dynamically displayed to a given user, based on the         identity of the viewing user (and/or other criteria associated         with that user);     -   Prizes can be awarded by school, class, period, teacher,         district, state, etc. In some embodiments, prizes can be awarded         by teacher, school, or by the school district.     -   Leaderboard Functionality provides additional incentive for         users to proactively participate in conversations and other         interactions of the Interactive Study Wall.     -   In some embodiments, prizes may be awarded to students with the         relatively highest Karma points earned during a specified time         interval (e.g., one week, 7 days, one month, 30 days, school         quarter, school semester, school year, etc.)     -   In at least some embodiments, Leaderboard Functionality and         awarding of prizes may be configured in such as way so as to         encourage collaboration among student users.     -   In at least some embodiments, Leaderboard Functionality and         awarding of prizes may be configured in such as way so as to         encourage competition among student users.     -   In at least some embodiments, Leaderboard Functionality and         awarding of prizes may be configured in such as way so as to         encourage collaboration among student users of the same school,         while also encouraging competition among student users of         different schools.

Online Discussion Thread Whiteboard Functionality

Several aspects of the present application relate to the provisioning or integration of discussion thread whiteboard functionality in online learning environments such as discussion forums, discussion threads, chat rooms, discussion walls, Interactive Study Walls, etc. (collectively referred to as “collaborative online discussion mediums”) Example embodiments of features relating to this aspect are illustrated, for example, in FIGS. 6-10.

For example, as illustrated in the example embodiment of FIG. 6, Student Interactive Study Wall GUI 601 includes buttons or icons (e.g., Whiteboard Buttons 613, 653) which, when selected by the user, may provide the user with access to various types of whiteboard functionality, as illustrated, for example, in the Interactive Whiteboard GUI 901 of FIG. 9. According to different embodiments, whiteboard functionality may be built directly into the user interface, which, for example, may be configured or designed to as a discussion wall, a discussion board, a discussion thread, a chat box, etc.

FIG. 9 shows an example screenshot of an Interactive Whiteboard GUI 901 in accordance with a specific embodiment. As illustrated in the example embodiment of FIG. 9, the Interactive Whiteboard GUI 901 includes a variety of different whiteboard tools (e.g., 910, 920, 950) for enabling users to perform a variety of activities such as, for example, one or more of the following (or combinations thereof):

-   -   Create/draw/edit notes, pictures, and/or diagrams (e.g., via         whiteboard editing tools 910).     -   Create/draw/edit graphs (e.g., via freehand, using pre-set grid         lines, etc.).     -   Create data tables     -   Plot graphs based upon data points, equations, etc. (e.g., via         Graph Equation functionality 952, Plot data functionality 954,         etc.).     -   Capture/upload/edit/annotate images (e.g., via Insert Image         functionality 960, via mobile device, email, MMS (951), etc.);     -   Record/upload/edit videos (e.g., via Record Video functionality         958, via Record/Edit Actions functionality 956, via mobile         device, email, MMS, etc.).     -   Scan/upload/edit/annotate documents (e.g., via mobile device,         email, MMS, reference library pre-populated by the system,         etc.).     -   Record and upload annotated/animated whiteboard diagrams.     -   Write out complex equations (e.g., via Equation Editor         functionality 953).     -   Draw formulas.     -   Draw molecular structures, which may or may not be pre-populated         by the system.     -   And/or other types of graphical illustration, editing,         annotating operations/activities.

In the specific example embodiment of FIG. 9, it is assumed that a Student user desires to submit a post on the Interactive Study Wall relating to a specific mathematical problem. The Student user accesses an instance of the Interactive Whiteboard GUI 901 to graphically illustrate (e.g., at 922) a portion of steps for solving the mathematical problem. In this particular example, it is assumed that the user accesses the whiteboard drawing tools 910 to draw various equations 922 on the whiteboard canvas 920. The user then intends to post the whiteboard drawing into a new discussion thread, which requests other users to review/confirm/comment on whether (or not) the Student user's work/proposed solution is correct. After drawing/annotation is completed, the user can choose to save the edited whiteboard canvas (or whiteboard drawing) and/or post directly to the online discussion thread (e.g., Interactive Study Wall), which causes the whiteboard drawing to be inserted into a new (or existing) discussion thread, as shown, for example, in at 1010 of FIG. 10. The whiteboard may also be used by a student/study expert/teacher to aid in the answering of another student's/Study Expert's/teacher's question.

In at least some embodiments, the user may also be provided with the option to add or attach additional commentary/text to the whiteboard drawing before and/or after posting to the discussion thread. The whiteboard drawing (with or without the additional text/commentary, as the user elects) may then be posted directly to the identified discussion thread, with no interruption in the flow of the discussion. Thus, for example, as illustrated in the example embodiment of FIG. 10, the Interactive Study Wall Discussion Thread GUI 1001 shows that the Student user (Alexandra Smith) has posted a new discussion thread which includes the whiteboard drawing 1010 (created via the Interactive Whiteboard GUI 901) and an associated comment/question 1012 (e.g., “Is this right?”). Other online users of the Interactive Study Wall may view the discussion thread post, and (if desired) submit comments/replies (e.g., as indicated, for example, at 1022 and 1024).

According to different embodiments, users may interact with the various discussions or threads of the Interactive Study Wall both synchronously and/or asynchronously. In some embodiments, users may reply to the entire thread generally, or to a comment specifically.

In some embodiments, the OSES whiteboard functionality may be configured or designed to enable or provide different types of whiteboard functionalities and/or privileges to different users who are collaborating together via the Interactive Study Wall and/or other OSES discussions/threads/forums. In some embodiments, at least a portion of such permissions/restrictions in functionalities, editing capabilities, and/or privileges may be dynamically configured by users via one or more Interactive Study Wall GUIs. For example, in some embodiments, some instances of Interactive Whiteboard GUIs may be configured or designed to include functionality for enabling users to configure different levels of permissions/restrictions/privileges for different users (and/or groups of users) with respect to accessing and/or editing posted content at one or more OSES discussions/threads/forums. In some embodiments, some instances of the Interactive Whiteboard GUI may include functionality for configuring different levels of permissions/restrictions/privileges for different users (and/or groups of users). In some embodiments, permissions/restrictions/privileges for accessing and/or editing posted content at one or more OSES discussions/threads/forums may be automatically configured (e.g., by the OSES Server), based on one or more criteria such as, for example, one or more of the following (or combinations thereof):

-   -   Class/type of User (e.g., Student, Teacher, Study Expert)         -   Students' Educational curriculum such as, for example:             class/grade/school/state standard/state curriculum             information.         -   Student's profile data such as, for example: User ID, User             email address, User IP address, User messaging address, etc.     -   And/or other types of criteria described and/or referenced         herein.

For example, in one embodiment, one or more user(s) may be provided with access to editing privileges (e.g., for editing posted images and/or text), while the other users in the discussion may be provided with only viewing privileges (and may be prevented from having access to editing privileges). In some embodiments, one or more user(s) may be granted permissions for allowing the identified user(s) to grant/remove/modify/configure editing privileges for one or more other users. In some embodiments, more than one user (e.g., multiple different users) may be provided with whiteboard editing privileges, and may concurrently (e.g., in real-time) (or asynchronously) draw, annotate and/or edit images, drawings and/or other objects displayed on the whiteboard canvas. In embodiments where multiple users are granted whiteboard editing privileges, visual indicators may be optionally enabled to identify and associate specific edits, annotations, revisions with the respective user(s) who performed such actions/operations.

Interactive Study Wall Filtering Functionality

As described above, at least some Online Social Education System(s) may be configured, designed to provide Interactive Study Wall Filtering Functionality for enabling personalization of users' Interactive Study Wall interactions, such as, for example, filtering posts to specific students (e.g. based on level of student, student's district, school, course enrollment, etc.). In some embodiments, filtering personalization for one or more students/users may be based, at least partially, on one or more of the following criteria (or combinations thereof):

-   -   posts for which a student/user has flagged as being of interest         (e.g., user has clicked on “like” button);     -   posts with which a student/user has actively engaged/interacted;     -   student performance (e.g., how well student performs on practice         tools);     -   student inputs/self-assessment;     -   tags/classifications associated with one or more Interactive         Study Wall posts (e.g., high difficulty, medium difficulty, low         difficulty, geometry, algebra, fractions, etc.)

In some embodiments, the OSES Server may be configured or designed to present a filtered Student Interactive Study Wall GUI which has been customized and/or personalized to display Interactive Study Wall posts which are determined by the system to be relevant to the user (student) who is viewing the Student Interactive Study Wall GUI. The Interactive Study Wall dynamic filtering functionality enables personalization of a user's Interactive Study Wall interactions, such as, for example, filtering posts to specific students (e.g. based on level of student, student's district, school, course enrollment, etc.).

Various features relating to Personalization on of Wall/Adaptive Learning/Interactive Discussion Forums may include, but are not limited to, one or more of the following (or combinations thereof):

-   -   Discussion boards may be automatically and dynamically         personalized dependent on the needs and/or interests of         user/viewer.     -   Automated Adaptive Learning and Personalization of User's         Interactive Study Wall. In at least one embodiment, this may         include showing specific posts to specific students (e.g., based         on level of student, student's district, school, course         enrollment, etc.). In some embodiments the automated adaptive         learning and personalization of a user's Interactive Study Wall         may be based, at least partially, posts which the user has         “liked”. In this way, the Online Social Education System is able         to dynamically learn what subject matter a student like, and may         dynamically learn or determine the educational curriculum         levels: (1) in which the student has demonstrated an adequate         understanding or proficiency of specific subject matter, and (2)         in which the student has not yet demonstrated an adequate         understanding or proficiency of specific subject matter. For         example, in one embodiment, the Online Social Education System         may evaluate the student based on his or her performance on         practice tool or test, and may use the evaluation results to         dynamically select, modify, and/or filter selected posts which         are displayed on the user's personalized Interactive Study Wall.         For example, if the Online Social Education System determines         that a given user is less proficient in nonlinear functions, the         system may dynamically filter the posts displayed on the user's         Interactive Study Wall to cause more posts relating to nonlinear         functions to be displayed on the user's Interactive Study Wall.     -   In some embodiments, may also be based on “pre-test” that asks         students to self-assess their confidence level on given         problems. In some embodiments, may also be based on         “self-assessment” such as, for example, student checking off         what they understand/don't understand.     -   Interactive Study Wall users can mark posts as “high/medium/low”         to identify the perceived level of difficulty or complexity with         a given post, which may be shared with other users, and may also         be utilized by the Online Social Education System.     -   In this way, the Online Social Education System may improve some         aspects of students academic performance and, may create a sense         of connectedness that promotes active learning.     -   Although other social networks may provide features for enabling         users to “like” selected posts, one important distinction         between such social networks and the Online Social Education         System is that, in the Online Social Education System, the         user's interests and needs are continually shifting and changing         as the user continues to learn and digest new educational         curriculum. For example, if a user “likes” a baking-related post         on Facebook, Facebook system may show the user more posts about         baking, and it is likely that the user will probably still like         baking 3 months later. In contrast, a student user of the         Interactive Study Wall may “like” a post relating to algebraic         equations one month (e.g., while the student is studying         algebraic equations in class), but may no longer be interested         in viewing posts relating to algebraic equations three months         later, for example, because the student has moved on to studying         other subject matter. Accordingly, the Online Social Education         System is configured or designed to take into account that the         student users are continually learning, and are moving through         different curriculum in their classrooms. In this way, the         Online Social Education System is able to provide dynamically         changing, personalized content for each respective user or         groups of users (e.g., of a given classroom, grade, etc.) which         is substantially relevant to the specific curriculum which the         user is currently studying, and relevant to the current needs         and interests of the user. For example:

Students mastering certain topics—posts relating to those topics are filtered out from the user's Interactive Study Wall “feed”.

Students identified as having issues with certain topic—posts relating to those topics are included in the user's the user's Interactive Study Wall “feed”.

Students identified as having similar “Learning Profiles” may view posts from similar learning profile students.

-   -   Students, teachers, and/or other users across different         geographic regions may use the Interactive Study Wall to         collaborate with each other, and the Interactive Study Wall may         be configured or designed to automatically and/or dynamically         filter posts displayed on each respective user's Interactive         Study Wall “Feed” so that only relevant and/or appropriate posts         are displayed to each respective user, based on various criteria         such as, for example, one or more of the following (or         combinations thereof):         -   class;         -   grade level;         -   school;         -   teacher;         -   school district;         -   geographic region;         -   user experience level (e.g., novice vs. advanced user);         -   user's current education curriculum;         -   etc.     -   In at least some embodiments, Interactive Study Wall may also         provide functionality for enabling users to define or configure         various filtering rules and/or filtering parameters.     -   In at least some embodiments, Interactive Study Wall may also         provide functionality for enabling users to search for key words         of post.     -   In at least some embodiments, Interactive Study Wall may also         provide functionality for recommending to a given user one or         more video tutorials, where such recommendations may be based,         at least partially upon the subject matter or relevancy of posts         which have been (or are being) viewed by that user.

Video Presentation and Digital Composting Functionality

According to different embodiments, at least a portion of the various types of educational video presentation procedure(s) described herein may be implemented at one or more client systems(s), at one or more server systems (s), and/or combinations thereof.

In at least one embodiment, one or more of the educational video presentation procedure(s) described herein may be operable to utilize and/or generate various different types of data and/or other types of information when performing specific tasks and/or operations. This may include, for example, input data/information and/or output data/information. For example, in at least one embodiment, the educational video presentation procedure(s) may be operable to access, process, and/or otherwise utilize information from one or more different types of sources, such as, for example, one or more local and/or remote memories, devices and/or systems. Additionally, in at least one embodiment, the educational video presentation procedure(s) may be operable to generate one or more different types of output data/information, which, for example, may be stored in memory of one or more local and/or remote devices and/or systems. Examples of different types of input data/information and/or output data/information which may be accessed and/or utilized by the educational video presentation procedure(s) may include, but are not limited to, one or more of those described and/or referenced herein.

In at least one embodiment, a given instance of one or more of the educational video presentation procedure(s) may access and/or utilize information from one or more associated databases. In at least one embodiment, at least a portion of the database information may be accessed via communication with one or more local and/or remote memory devices. Examples of different types of data, which may be accessed by the educational video presentation procedure(s), may include, but are not limited to, one or more of those described and/or referenced herein.

According to specific embodiments, multiple instances or threads of the educational video presentation procedure(s) may be concurrently implemented and/or initiated via the use of one or more processors and/or other combinations of hardware and/or hardware and software. For example, in at least some embodiments, various aspects, features, and/or functionalities of the educational video presentation procedure(s) may be performed, implemented and/or initiated by one or more of the various systems, components, systems, devices, procedures, processes, etc., described and/or referenced herein.

According to different embodiments, one or more different threads or instances of the educational video presentation procedure(s) may be initiated in response to detection of one or more conditions or events satisfying one or more different types of minimum threshold criteria for triggering initiation of at least one instance of the educational video presentation procedure(s). Various examples of conditions or events which may trigger initiation and/or implementation of one or more different threads or instances of the educational video presentation procedure(s) may include, but are not limited to, one or more of those described and/or referenced herein.

According to different embodiments, one or more different threads or instances of the educational video presentation procedure(s) may be initiated and/or implemented manually, automatically, statically, dynamically, concurrently, and/or combinations thereof. Additionally, different instances and/or embodiments of the educational video presentation procedure(s) may be initiated at one or more different time intervals (e.g., during a specific time interval, at regular periodic intervals, at irregular periodic intervals, upon demand, etc.).

In at least one embodiment, initial configuration of one or more instances of the educational video presentation procedure(s) may be performed using one or more different types of initialization parameters. In at least one embodiment, at least a portion of the initialization parameters may be accessed via communication with one or more local and/or remote memory devices. In at least one embodiment, at least a portion of the initialization parameters provided to an instance of the educational video presentation procedure may correspond to and/or may be derived from the input data/information.

FIG. 11 shows an example screenshot of an Interactive Study Video Discussion Thread GUI 1100 in accordance with a specific embodiment. As illustrated in the example embodiment of FIG. 11, the Interactive Study Video Discussion Thread GUI 1101 may include, but are not limited to, one or more of the following (or combinations thereof):

-   -   Video Presentation portion 1110, which may be configured or         designed to display one or more educational/tutorial videos         relating to specific subject matter selected by the user (e.g.,         “Identify A Graph From An Equation”)     -   Discussion Thread portion 1112, which may be configured or         designed to enable users to post questions and/or comments         relating to the video being presented in the Video Presentation         portion 1110.

As illustrated in the example embodiment of FIG. 11, a student user has posted (at 1122) an initial question relating to the video tutorial (e.g., “Identify A Graph From An Equation”), requesting assistance in graphing the equation “y=x+5”. In this particular example, it is assumed that the user subsequently accesses the OSES whiteboard functionality to create a drawing of a graph showing how the equation “y=x+5” may be graphed on an X-Y Axis, which is then posted (e.g., at 1132) as a comment/reply in the discussion thread.

FIGS. 12 and 13 show example screenshots of different Interactive Study Wall GUI embodiments. In the specific example embodiment of FIG. 12, it is assumed that a first student user (e.g., Sean Smith) posts a question (1212) on the Interactive Study Wall, requesting assistance and how to solve problem 24 in the accompanying image 1222. In this particular example, it is assumed that the image 1222 represents a photo of a page from an algebra workbook, which was captured by the user (e.g., via the user's smartphone) and uploaded to the OSES Server. In one embodiment, the user can upload a photo or image to the Interactive Study Wall directly from the corresponding mobile app. In another embodiment, a user can text or email the photo or image to the OSES Server, and the OSES Server may automatically post the received image/photo to the Interactive Study Wall. In this particular example, it is assumed that a second user (e.g., Jayansh Smith) accesses the OSES whiteboard functionality to create a graphical drawing of an annotated number line showing how problem 24 may be graphed, and then posts the graphical drawing (1232) as a comment/reply in the discussion thread. In other embodiments (not shown), users may access the video recording functionality of the Online Social Education System (e.g., via video icon 1252) in order to record and post a video-based reply to the first student user's question.

In the example embodiment of FIG. 13, the Interactive Study Wall GUI 1300 may be configured or designed to include functionality for capturing and posting screenshots or selected frames (e.g., 1324) of educational video presentations to the Interactive Study Wall (e.g., as part of posted questions and/or comments). In at least some embodiments, the posted video frame(s) (1324) may be linked to a particular scene or segment of an associated educational video presentation. When a user clicks on the posted video frame (1324), the OSES Server may respond by causing the identified scene or segment of the associated educational video presentation to be played at the user's system.

Many of today's online educational videos do not capture student attention for long (or at all), and often come across as being impersonal or mechanical. Such educational videos typically have to choose between showing an instructor, speaking to a camera (lecture style), or featuring the problem at hand, with instruction, if any is given, as a voiceover (documentary style).

For example, FIGS. 14-15, and 30-31 illustrate example screenshots of conventional educational video presentation display techniques. It will be appreciated that the various video presentation and digital composting techniques described herein provide a variety of additional features, benefits and advantages over conventional online educational video presentation techniques. For example, many conventional online educational video presentation techniques may generally be categorized into one or more the following types:

-   -   Documentary Style (no visual Presenter). For example:         -   Display of writing on a page with no visual Presenter and/or             with a disembodied voice narrating.         -   An educational video presentation, which displays a sequence             of slides accompanied by a voice only narration.     -   Lecture Style (includes visual Presenter). For example:         -   An educational video presentation in which a Presenter is             standing in front of a physical whiteboard (see, e.g., FIGS.             14, 15). In order to write presentation notes during such             presentations, the Presenter must turn his or her back to             the viewer/camera (e.g., as illustrated in FIG. 14),             obstructing the board and breaking eye contact with             viewer/camera, often when vital instruction is taking place.         -   An educational video presentation in which a video display             of the Presenter is shown in a separate box or window, which             is embedded into the educational video presentation. In some             embodiments the Presenter window may be displayed adjacent             to a document display window of the educational video             presentation (e.g., as illustrated in FIG. 30). In other             embodiments, a rectangular Presenter window may be             superimposed (e.g., using conventional Picture-in-Picture             techniques) over a portion of the document display window,             thereby obscuring portions of the document display window to             the viewer (e.g., as illustrated in FIG. 31).

As illustrated in the example educational video presentation screenshot of FIG. 15, the Presenter 1514 is standing in front of a whiteboard 1512, and distracting, non-relevant background (e.g., the poster) is visible to the viewer. Note the distracting and unnecessary background behind the Presenter. Additionally, in the example educational video presentation of FIG. 15, the Presenter needs to turn her back to viewers when writing notes on the background whiteboard 1512. In contrast, at least some of the video presentation and digital composting techniques described herein may be configured or designed to distill both video feed sources (e.g., background whiteboard presentation video feed and Presenter video feed) such that only the most essential part of each source video feed is displayed (e.g., a Chroma key composited video feed of the Presenter is presented over the displayed presentation whiteboard content in a manner which reduces and/or eliminates display of unwanted background distractions/images/content).

In the example educational video presentation screenshot of FIG. 14, the Presenter 1414 is standing in front of a physical whiteboard 1412. In order to write presentation notes during video presentations, the Presenter 1414 must turn her back to the viewer/camera, obstructing portions of the whiteboard 1412, and breaking eye contact with viewer/camera. Additionally, there is no way for Presenter to change the background (e.g., it is always the whiteboard). In contrast, using the video presentation and digital composting techniques described herein, the Presenter is able to write presentation notes (e.g., in real-time) without having to turn his or her back to the camera/viewers, and is also able to dynamically change (e.g., in real-time) the background graphics/content without breaking eye contact with the camera or moving off screen.

In some educational video presentation embodiments, a transparent layer of glass may be interposed between the Presenter and the camera and used by the Presenter to write notes during the presentation, which are viewable to the user. While this may help mitigate the need for the Presenter to turn his/her back to the camera when writing notes, the visual effect (e.g., from the perspective of the viewer) may be somewhat undesirable for various reasons. For example, the presentation notes are displayed in front of the Presenter, thereby obscuring visibility of the Presenter. The glare of the glass may also be detrimental to the viewability of a given problem. Additionally, this type of presentation technique requires additional processing procedures to be implemented (e.g., in non-real time) to cause the presentation notes to appear properly to the viewer (e.g., without the use of such additional processing procedures, the presentation notes/characters would appear backwards or reversed to the viewer). For example, in many such educational video presentation embodiments, the instructor is not performing the presentation note writing in real-time. Rather, someone else (other than the Presenter) typically performs the presentation note writing in non-real time, during post video editing operations. In contrast, the video presentation and digital composting techniques described herein enable a single person (e.g., the Presenter) to conduct the video presentation and note writing in real-time, without requiring postproduction editing operations to be performed.

FIGS. 30 and 31 show example screenshots of other types of conventional educational video presentation display techniques in which a video display of the Presenter is shown in a separate box or window, which is embedded into the educational video presentation. For example, as illustrated in the example embodiment of FIG. 30, the Presenter window 3014 may be displayed adjacent to a document display window 3012 of the educational video presentation 3010. This configuration may be undesirable as it typically requires viewers to simultaneously view two different windows (e.g., 3012, 3014) in order to view the video presentation while reducing the size of both video feeds, thereby making viewing more difficult on a standard size computer screen. Alternatively, as illustrated in the example embodiment of FIG. 31, a rectangular Presenter window 3114 may be superimposed (e.g., using conventional Picture-in-Picture techniques) over a portion of the document display window 3110, thereby obscuring portions of the document display content (e.g., 3112) to the viewer.

It is noted that none of the conventional educational video presentation display techniques is conducive to learning, particularly math-related learning. For example, in educational videos, providing math instruction via the documentary style, students may be required to view problems and equations (presented in the educational video) in order to follow along fully, and are therefore unable to simultaneously or concurrently observe the visual cues of the Presenter. Such issues are detrimental to the online learning experience, particularly in situations involving concepts that need to be illustrated in order to be understood and/or discussed.

In some embodiments, the video presentation technology of the Online Social Education System may be configured or designed to provide one or more of the following features, functions, benefits (or combinations thereof):

-   -   Ability to simultaneously watch video and post questions to         Interactive Study Wall about the video (or segment or portion         thereof).     -   Picture-In-Picture Video Presentation (e.g., 1164, FIG. 11)         provides the ability for video Presenter (1164 a) to maintain         substantially continuous eye contact with camera/user, while         concurrently or simultaneously providing the ability for the         viewer to observe the Presenter's written notes, comments, etc.         (e.g., via whiteboard presentation portion 1162).         -   Online Social Education System PIP functionality preserves             eye contact in videos.         -   Eye Contact is a way to create increased trust and             confidence for students, through the use of maintaining eye             contact throughout a video.         -   Eye Contact also allows students to pick up on physical cues             or for instructor to use physical gestures to illustrate a             concept.         -   Online Social Education System PIP functionality allows for             best of both worlds: students can see problem as instructor             is working out/describing problems, while receiving visual             cues and support from teacher on side of screen.         -   In some embodiments, the Online Social Education System PIP             feature may be presented as an overlay layer over the             whiteboard background 1162. Users/viewers may be provided             with capability of dynamically moving the PIP Presenter Box             1164 (within the GUI) in order to view any whiteboard             content which may have been obscured by the PIP Presenter             Box 1164.         -   In some embodiments, the Online Social Education System PIP             feature may provide users/viewers with the ability to             selectively toggle to full-face screen (of the Presenter             1164 a) as needed or desired.     -   Using the Online Social Education System PIP functionality, the         Presenter 1164 a may maintain continuous eye contact with the         camera, and does not need to turn his back to the camera to         write on the notes (1162), which is displayed behind the         Presenter. The Presenter is able to write on the notes, which is         captured by an overhead camera, then displayed to a monitor         screen in the eye-line of the Presenter and in line with the         face-capturing video camera Thus, the Presenter can look         directly ahead to write on the notes. This gives the effect of         the Presenter looking directly at the audience when he is         writing.     -   In at least one embodiment, the Online Social Education System         may be configured or designed to implement a video presentation         technique in which the notes is displayed behind the speaker         concurrently while the speaker maintains continuous eye contact         with the camera/viewer (e.g., via the PIP Presenter Box 1164).     -   In one embodiment, one person (e.g., the Presenter) maintains         the eye contact with the camera while presenting the subject         matter, and writing notes in the video tutorial. In such         embodiments, the video may be entirely self-directed with no         post-editing needed. In at least some embodiments, the         Presenter's notes may be simultaneously or concurrently         displayed in whiteboard background 1162 while the Presenter is         presenting the material to the viewer via PIP Presenter Box         1164. In some embodiments, in order to enable the Presenter to         maintain substantially continuous eye contact with the camera, a         separate monitor may be placed adjacent to the recording video         camera, and may be configured to display (e.g., to the         Presenter, during the presentation, and in real-time) the         content of the whiteboard background 1162. This allows the         Presenter to take notes without ever looking down at notes.     -   In some embodiments, a single person (e.g., the Presenter) may         perform a live video presentation (e.g., in real-time),         concurrently handling both the (human) Presenter video-feed         portion of presentation, and the notes/whiteboard video-feed         portion of the presentation. In other embodiments, 2 (or more)         people may be used to perform a live video presentation (which         may be recorded and displayed as an Interactive Study Wall video         tutorial)—one person being the primary Presenter (in the video),         and the other person (e.g., not shown in the video) being in         charge of writing the notes/annotations, etc. which are         displayed on the projection behind the Presenter.

FIGS. 16A-E illustrate example screenshots of various GUIs which may be used for facilitating activities relating to one or more of the video presentation and digital composting aspects disclosed herein.

FIG. 16A shows an example screenshot of a Video Presentation GUI 1600 in accordance with a specific embodiment. As illustrated in the example embodiment of FIG. 16, the Video Presentation GUI 1601 may include, but are not limited to, one or more of the following (or combinations thereof):

-   -   Presentation GUI portion 1660, which may be configured or         designed to display one or more educational/tutorial videos         relating to specific subject matter selected by the user (e.g.,         “Identify A Graph From An Equation”). As illustrated in the         example embodiment of FIG. 16A, the Presentation GUI portion         1660 may be configured or designed to concurrently display         presentation whiteboards, notes, and/or other presentation         content (e.g., 1662), and video feed(s) (e.g., 1664) of the         person (e.g., Presenter) who is leading, delivering or         presenting the video presentation.     -   Video playback/control GUI portion 1602.     -   Presentation title (1603).     -   Text description of the video presentation.     -   Transcript of the audio portion of the video presentation.     -   Etc.

In at least some embodiments, the displayed image (e.g., 1664) associated with the Presenter video feed may be interchangeably referred to as the “Presenter video feed” or “Presenter image”. In at least some embodiments, the displayed presentation content 1662 (such as, for example, PowerPoint slides, electronic whiteboard(s), images of a physical documents, iPad/tablet displays, graphics, etc.) associated with the presentation content video feed may be interchangeably referred to as “presentation content” or “whiteboard content” or “presentation whiteboard content” or “notes/document/annotation content”.

As illustrated in the example embodiment of FIG. 16A, the Presentation GUI portion 1660 may be configured or designed to be displayed as a “picture-in-picture” (PiP) video presentation, which, for example, may collectively and simultaneously display: (i) a video feed of the Presenter (1664), and (ii) a video feed of related presentation content (e.g., whiteboard content 1662), which, for example, may be synchronized with the Presenter video feed. According to different embodiments, examples of the different types of content which may be displayed as part of the presentation content video feed may include, but is not limited to, one or more of the following (or combinations thereof):

-   -   manual/hand drawn notes;     -   whiteboard canvas(es);     -   annotations;     -   text;     -   animations;     -   pictures, images or other graphical content;     -   videos;     -   spreadsheets;     -   documents/content generated by computer software (such as, for         example, Microsoft Word, Microsoft Power Point, etc.);     -   etc.

In some embodiments, a Chroma key compositing technique may be employed to cause the video feed of the Presenter (1664) to be displayed (e.g., via an overlay layer) over (or in front of) the displayed video presentation notes/whiteboard feed (e.g., as illustrated in FIG. 16A).

Unlike conventional video presentation techniques, the displayed presentation content (whether it be a PowerPoint slide, an electronic whiteboard, an image of a physical document, an iPad display, graphics, etc.) is not projected onto a screen behind the Presenter, but rather, is presented via separate display layer (e.g., in real-time), concurrently with the display of the Presenter video feed.

For example, as illustrated in the example embodiment of FIG. 16A, the Presenter video feed 1664 is overlaid or superimposed (e.g., via a separate overlay layer) over the displayed presentation content portion 1662. Additionally, as illustrated in the example embodiment of FIG. 16A, a Chroma key compositing technique is used to enable the Presenter video feed 1664 to display only the superimposed image of the Presenter, without displaying any of the background scene (e.g. background scene behind the Presenter), and without displaying any other distracting images, objects or other content. In this way, the video presentation and digital composting techniques described herein provide the benefit of significantly reducing or eliminating the “visual clutter” and unpleasant contrast, which typically accompanies conventional picture-in-picture displays.

In some embodiments, the video feed of the Presenter (1664) may be configured or designed to be displayed (e.g., at the end user's system) via an overlay layer (or overlay window) (e.g., 1664), which is dynamically adjustable (e.g., by the end user) in size, position, transparency, etc. For example, as illustrated in the example embodiment of FIG. 16B, the user may select and move the Presenter image 1664 b to a new desired location within the Video Presentation GUI portion 1660, and may also resize the Presenter image to make it larger or smaller. In at least some embodiments, such operations may be performed during active playback or streaming of the video presentation.

As illustrated in the example embodiment of FIG. 16C, the Video Presentation GUI may be configured or designed to include functionality for enabling the user to dynamically and selectively adjust the amount of transparency of the displayed Presenter video feed (e.g., 1664 c) and/or the displayed presentation content feed (e.g., whiteboard content 1662). In some embodiments, separate controls (e.g., 1672, 1674) may be provided for enabling a user to separately and independently adjust the transparency characteristics of the displayed Presenter video feed (e.g., 1664 c) and/or the displayed presentation content feed (1662). In some embodiments, functionality may be provided for enabling a user to dynamically adjust the transparency characteristics of any overlapped regions (e.g., 1663) between the displayed Presenter video feed (e.g., 1664 c) and the displayed presentation content (1662). For example, as illustrated in the example embodiment of FIG. 16C, region 1663 represents one such portion of overlapped region. In at least one embodiment, the Video Presentation System may be configured or designed to detect and identify region(s) of overlap (e.g., 1663) between the displayed Presenter video feed and displayed textual or graphical content of the presentation whiteboard feed, and in response, may automatically and dynamically adjust the transparency characteristics of either (or both feeds) in order to content from both feeds to be simultaneously visible within the overlap region, and to prevent the content from one feed of securing the visible content from the other feed (as illustrated, for example, at 1663).

In some embodiments, as illustrated in the example embodiment of FIG. 16D, the Video Presentation GUI may be configured or designed to resize (e.g., reduce and/or enlarge) the video presentation display window 1660 d, and to enable the displayed content from the Presenter video feed (1664 d) and/or the presentation whiteboard feed (1662 d) to be moved to desired positions/locations within the resized video presentation display window 1660 d.

In some embodiments, as illustrated in the example embodiment of FIG. 16E, the Video Presentation GUI may be configured or designed to resize (e.g., reduce and/or enlarge):

-   -   the video presentation display window 1660 e,     -   the Presenter video feed (1664 e) region; and/or     -   the presentation whiteboard feed (1662 e) region.

Additionally, the Video Presentation GUI may be configured or designed to enable the Presenter video feed (1664 e) region and/or the presentation whiteboard feed (1662 e) region to be moved to desired positions/locations within the resized video presentation display window 1660 e.

FIGS. 17-25 illustrate different example components and configurations, which may be utilized for implementing one or more of the video presentation and digital composting aspects disclosed herein.

FIG. 17 shows an example embodiment of a system configuration 1700 which may be used for conducting and/or recording a video presentation session. As illustrated in the example embodiment of FIG. 17, the Presenter 1704 is physically positioned in front of the green screen background, so as to facilitate the use Chroma key compositing techniques for compositing (layering) the Presenter video feed and the presentation whiteboard video feed.

In at least one embodiment, the recording of the video presentation (including both the Presenter video feed, and the presentation whiteboard video feed) may occur entirely synchronously and in real-time, with no post editing needed. For example, in one embodiment, as the Presenter stands in front of the green screen 1702, he can see the presentation whiteboard video feed displayed on the Confidence Monitor 1710. However, unlike conventional teleprompters, (which only displays a text transcription of the Presenter's audio dialog), the Presenter may configure the Confidence Monitor (e.g., via remote controller 1711) to display a digitally composted video feed of the Presenter video feed and presentation whiteboard video feed (e.g., as illustrated in the example embodiment of FIG. 25). In this way, the Presenter is able to observe (e.g., in real-time) the composted video feed showing his image overlaid in front of the presentation whiteboard content (e.g., as the video presentation may appear to end users), and is able to angle his body movement(s) accordingly for interacting with portions (e.g., graphs, text, images, etc.) of the displayed presentation whiteboard content.

In at least one embodiment, the remote controller unit (e.g., 1711) may be located within easy reach of the Presenter (e.g., but not within view of Camera 1 or Camera 2), to enable the Presenter to selectively and dynamically change (e.g., in real-time) the presentation background (e.g., displayed in the composted presentation video feed) between whiteboard, notes, graphics, animations, slide presentation, etc., and in a seamless manner (e.g., without the Presenter having to change his position or noticeably move).

As illustrated in the example embodiment of FIG. 17, the video presentation system configuration 1700 may include, but are not limited to, one or more of the following feature(s)/component(s) (or combinations thereof):

-   -   Green screen background 1702 (or other color background, which         is compatible for use with Chroma key compositing).     -   A first video recording device (e.g., Camera 1, 1708), which may         be used to capture and generate a video feed of the Presenter         1704.     -   A second video recording device (e.g., Camera 2, 1706), which         may be used to capture and generate a video feed of the         presentation whiteboard (1712), notes, annotations, documents,         etc.     -   A video recording/presentation server (e.g., 1720), which, for         example, may be configured or designed to:         -   Record (e.g., in real-time) the Presenter video feed.         -   Record (e.g., in real-time) the presentation whiteboard             video feed.         -   Perform (e.g., in real-time) Chroma key compositing             operations for compositing the Presenter video feed and the             presentation whiteboard video feed.         -   Generate (e.g., in real-time) display output for displaying             (or streaming) the Presenter video feed, the presentation             whiteboard video feed, and/or composted video feeds.         -   Etc.     -   Confidence Monitor (e.g., 1710). In at least one embodiment, the         Confidence Monitor may be viewable to the Presenter during the         recording of the video presentation, and may be positioned         adjacent to (or directly behind) Camera 1, in order to         facilitate the Presenter maintaining eye contact with Camera 1.         In at least some embodiments, the Confidence Monitor may be         configured or designed to display a variety of content such as,         for example, one or more of the following (or concurrent         combinations thereof):         -   the Presenter video feed (as illustrated for example, in             FIG. 23 (e.g., 2311, 2309), and FIG. 25 (e.g., 2509, 2511));         -   the presentation whiteboard video feed (as illustrated for             example, in FIG. 24 (e.g., 2413), and FIG. 25 (e.g., 2513));         -   one or more digitally composted video feed(s) of the             Presenter video feed and presentation whiteboard video feed             (as illustrated, for example, in FIG. 25 (e.g., 2511,             2513));         -   and/or other content.         -   In some embodiments (e.g., as illustrated in FIG. 25) the             Presenter may dynamically configure the Confidence Monitor             to selectively display (e.g., in real-time) the presentation             whiteboard content (e.g., 2513) (e.g., which may be             implemented using paper, PowerPoint, graphics, etc.) as well             as the Presenter video feed (e.g. 2511). This display             configuration enables the Presenter to maintain eye contact             with the viewer/camera, while simultaneously enabling the             Presenter to view his image relative to the presentation             whiteboard content, allowing the Presenter to point to             desired portions of the presentation whiteboard content             (e.g., based on what the Presenter desires to emphasize in             real time).     -   A remote controller 1711, which, for example, may be configured         or designed to include functionality for enabling the Presenter         to initiate or perform (e.g., in real-time) a variety of         operations relating to the video presentation such as, for         example, one or more of the following (or combinations thereof):         -   control recording and playback of the video presentation;         -   causing the Confidence Monitor to display (or not display)             the Presenter video feed;         -   causing the Confidence Monitor to display (or not display)             the presentation whiteboard video feed;         -   causing the Confidence Monitor to display one or more             digitally composted video feed(s) of the Presenter video             feed and presentation whiteboard video feed;         -   causing the streamed output video feed of the video             presentation to display (or not display) the Presenter video             feed;         -   causing the streamed output video feed of the video             presentation to display (or not display) the presentation             whiteboard video feed;         -   causing the streamed output video feed of the video             presentation to display a digitally composted video feed of             the Presenter video feed and presentation whiteboard video             feed;         -   change the position of the PIP frame;         -   and/or other types of remotely controllable operations.     -   A Remote Annotation Device 1713, which, for example, may be         configured or designed to include functionality for enabling the         Presenter to selectively annotate (e.g., in real-time) portions         of the displayed presentation whiteboard content without         breaking eye contact with the Presenter camera (e.g., Camera 1).         According to different embodiments, the remote annotation device         may be implemented using a wireless device (such as, for         example, a wireless mouse pointer, a smartphone, etc.), which         includes functionality for tracking (e.g., in real-time) the         Presenter's hand location and/or hand movements. In some         embodiments, the remote annotation device may include one or         more buttons which may be assigned different types of         functionalities such as, for example, one or more of the         following (or combinations thereof):         -   Annotate Enable/Disable button;         -   Undo button;         -   Clear Annotations Button;         -   Switch annotation color button;         -   Etc.

For example, in one embodiment, when the Presenter clicks on an “annotate enable” button on the remote annotation device, “annotation mode” is enabled, and visual annotations are created and displayed as part of the background presentation (or presentation notes) based on the Presenter's hand movements/gestures which occur while the annotate enable button is activated/depressed. In some embodiments, the Remote Annotation Device may be configured or designed to track the Presenter's hand movements/gestures, and wirelessly communicate the tracked hand movement/gesture information to the video recording server 1721 (or other computing device), which may then process and convert the tracked hand movement/gesture information into annotations which are displayed as presentation whiteboard annotations. Examples of video presentation whiteboard annotations which may be added by Presenter (e.g., via Remote Annotation Device 1713) are illustrated at 1672 and 1674 of FIG. 16A. In at least some embodiments, the presentation whiteboard annotations may be displayed to the Presenter (e.g., in real-time) via the Confidence Monitor 1710. In this way, the Presenter is able to insert (e.g., during the presentation and in real-time) presentation whiteboard annotations (and/or perform other whiteboard activities such as draw/manipulate text, graphics) via interaction with the Remote Annotation Device while simultaneously maintaining eye contact with the camera/viewer.

In other embodiments, the Remote Annotation Device may be implemented using an iPad, tablet, or other portable device which includes a touch screen, and which is configured or designed to enable the Presenter to insert (e.g., during the presentation and in real-time) presentation whiteboard annotations (and/or perform other whiteboard activities such as draw/manipulate text, graphics) via interaction with the Remote Annotation Device touch screen, and while simultaneously maintaining eye contact with the camera/viewer.

In some embodiments, using one or more of the video presentation and digital composting techniques described herein, the Presenter may simply write on a piece of paper (e.g. write notes on a physical piece of paper or page with pen/marker/pencil), while simultaneously maintaining eye contact with the camera/viewer. According to different embodiments, the Presenter can also use the Remote Annotation Device (or other remote control device) to control presentation of text, graphics, images, etc.

In some embodiments, the video presentation and digital composting system may include sensors (e.g., motion sensors, Xbox Kinect™ sensors, etc.) to monitor track, and interpret the Presenter's hand movements and/or gestures, and automatically implement one or more actions in response, such as, for example:

-   -   advance to next slide;     -   go back to previous slide;     -   display graphics;     -   insert annotations;     -   advance to next page;     -   go back to previous page;     -   pause slide presentation;     -   resume slide presentation;     -   display annotations;     -   hide annotations;     -   transition different components within a page;     -   etc.

FIG. 18 shows an example embodiment of an alternate system configuration 1800 which may be used for conducting and/or recording a video presentation session. As illustrated in the example embodiment of FIG. 18, the Presenter 1804 is physically positioned in front of the green screen background 1802, so as to facilitate the use Chroma key compositing techniques for compositing (layering) the Presenter video feed and the presentation whiteboard video feed.

As illustrated in the example embodiment of FIG. 18, the video presentation system configuration 1800 may include, but are not limited to, one or more of the following feature(s)/component(s) (or combinations thereof):

-   -   Green screen background 1802 (or other color background, which         is compatible for use with Chroma key compositing).     -   A first video recording device (e.g., Camera 1, 1808), which may         be used to capture and generate a video feed of the Presenter         1804.     -   A video recording/presentation server (e.g., 1820) having         functionality similar to that described in FIG. 17.     -   An electronic whiteboard 1812 (such as, for example, an iPad,         computer tablet, smartphone, etc.), which may be configured or         designed enable the Presenter to generate digital content (e.g.,         notes, annotations, images, text, documents, etc.) to be         displayed as part of the presentation whiteboard feed. According         to different embodiments, the electronic whiteboard may be         configured or designed to communicate with the video         recording/presentation server via wired and/or wireless         interface(s).     -   Confidence Monitor (e.g., 1810) having functionality similar to         that described in FIG. 17.     -   A remote controller 1811 having functionality similar to that         described in FIG. 17.     -   A Remote Annotation Device having functionality similar to that         described in FIG. 17.

FIG. 19 shows an example embodiment of a system configuration 1900 which may be used for conducting and/or recording a video presentation session. As illustrated in the example embodiment of FIG. 19, the Presenter 1904 is physically positioned in front of the green screen background, so as to facilitate the use Chroma key compositing techniques for compositing (layering) the Presenter video feed and the presentation whiteboard video feed.

As illustrated in the example embodiment of FIG. 19, the video presentation system configuration 1900 may include, but are not limited to, one or more of the following feature(s)/component(s) (or combinations thereof):

-   -   Green screen background 1902 (or other color background, which         is compatible for use with Chroma key compositing).     -   A first video recording device (e.g., Camera 1, 1908), which may         be used to capture and generate a video feed of the Presenter         1904.     -   A video recording/presentation server (e.g., 1920) having         functionality similar to that described in FIG. 17.     -   An electronic whiteboard 1912 (such as, for example, a notebook         computer), which may be configured or designed enable the         Presenter to generate digital content (e.g., notes, annotations,         images, text, documents, slides, etc.) to be displayed as part         of the presentation whiteboard feed. According to different         embodiments, the electronic whiteboard may be configured or         designed to communicate with the video recording/presentation         server via wired and/or wireless interface(s).     -   Confidence Monitor (e.g., 1910) having functionality similar to         that described in FIG. 17.     -   A remote controller 1911 having functionality similar to that         described in FIG. 17.     -   A Remote Annotation Device having functionality similar to that         described in FIG. 17.

FIGS. 20-25 illustrate various images of an example embodiment of a video presentation studio.

FIG. 20 shows a view of a portion of the video presentation studio as viewed from a position behind Confidence Monitor 2010.

FIG. 21 shows a view of a portion of the video presentation studio as viewed from a position in front of the Confidence Monitor.

FIG. 22 shows a view of a portion of the video presentation studio as viewed from the Presenter's perspective.

FIG. 23 shows a view of the Confidence Monitor screen 2310, which, in this example, is configured to display the Presenter video feed, which, for example, includes an image of the Presenter 2311 and a blank (e.g., white) background generated in real-time using a Key Chroma composting technique. In the specific example embodiment of FIG. 23, the Presenter video feed is generated from the images captured by the video camera device 2308.

FIG. 24 shows a view of the Confidence Monitor screen 2410, which, in this example, is configured to display the presentation whiteboard feed 2413, which, for example, includes images captured by the presentation whiteboard camera device (e.g., Camera 2006, FIG. 20).

FIG. 25 shows a view of the Confidence Monitor screen 2510, which, in this example, is configured to display a composted feed which includes both the presentation whiteboard content (e.g., 2513) and the Presenter video feed (e.g. 2511).

Additionally, as illustrated in the example embodiment of FIGS. 20-25, the video presentation studio may include, for example, one or more of the following (or combinations thereof):

-   -   Green screen background (e.g., 2002, FIG. 20) or other color         background, which is compatible for use with Chroma key         compositing.     -   A presentation whiteboard camera (e.g., 2006) configured to         capture and generate a video feed of the presentation whiteboard         content (e.g., 2112, FIG. 21), such as, for example, notes,         annotations, documents, etc.     -   A Presenter camera (e.g., 2208, FIG. 22), which may be used to         capture and generate a video feed of the Presenter.     -   A video recording/presentation server (e.g., 2020, FIG. 20)         having functionality similar to that described in FIG. 17.     -   Confidence Monitor (e.g., 2010, FIG. 20; 2210, FIG. 22) having         functionality similar to that described in FIG. 17.     -   A remote controller (e.g., 2111, FIG. 21) having functionality         similar to that described in FIG. 17.     -   One or more additional monitors (e.g., 2030, FIG. 22) which may         be configured or designed to display various types of content to         the Presenter, such as, for example, one or more of those         described herein.     -   And/or other features/components such as one or more of those         described and/or referenced herein.

Transition Operations and Eye Contact

FIGS. 32-41 depict a sequence of example screenshots (e.g., derived from different video frames of a video presentation) illustrating various presentation transition features which may be implemented via one or more of the video presentation and digital composting techniques disclosed herein. In the example scenario relating to FIGS. 32-41, it is assumed that an end user (e.g., viewer, student, etc.) is viewing an on-demand playback of a streamed composted video presentation which was previously delivered and recorded live by a Presenter (e.g., 3202, FIG. 32) at a video presentation production studio using a Chroma key composted video production technique. It is further assumed in this example that the Presenter is implementing and controlling (e.g., by himself, and in real-time while delivering the live presentation) a sequence of video presentation transitions including those depicted in the example transition sequences of video presentation screenshots of FIGS. 32-41. As illustrated in the example screenshots of FIGS. 32-41, at least some of the depicted video presentation transitions may include, but are not limited to, one or more of the following (or combinations thereof):

-   -   Fade-in Presenter image. An example of this type of transition         is illustrated in FIG. 32, which shows an image of the Presenter         3202 fading in to the visible video presentation. In at least         some embodiments, the Presenter may initiate the “Fade-in         Presenter image” operation concurrently while delivering or         recording the live presentation via use of a remote control         device such as, for example, remote controller 1711 (FIG. 17).     -   Fade-out Presenter image. An example of this type of transition         is illustrated in FIG. 41, which shows an image of the Presenter         4102 fading out of the visible video presentation. In at least         some embodiments, the Presenter may initiate the “Fade-out         Presenter image” operation concurrently while delivering or         recording the live presentation via use of a remote control         device such as, for example, remote controller 1711 (FIG. 17).     -   Fade-in presentation whiteboard content. An example of this type         of transition is illustrated in FIG. 34, which shows the         presentation whiteboard content 3404 fading in to the visible         video presentation. In at least some embodiments, the Presenter         may initiate the “Fade-in presentation whiteboard content”         operation concurrently while delivering or recording the live         presentation via use of a remote control device such as, for         example, remote controller 1711 (FIG. 17).     -   Fade-out presentation whiteboard content. An example of this         type of transition is illustrated in FIG. 39, which shows the         presentation whiteboard content 3904 fading out from the visible         video presentation. In at least some embodiments, the Presenter         may initiate the “Fade-out presentation whiteboard content”         operation concurrently while delivering or recording the live         presentation via use of a remote control device such as, for         example, remote controller 1711 (FIG. 17).     -   Shrink Presenter image. An example of this type of transition is         depicted in the sequence of screenshots of FIGS. 32-36, which         show a relatively large image of the Presenter (e.g., 3202,         FIG. 32) progressively shrinking in size to a relatively small         image of the presenter (e.g., 3602, FIG. 36) as the video         presentation progresses (e.g., as illustrated in FIGS. 33, 34,         35). In at least some embodiments, the Presenter may initiate         the “Shrink Presenter image” operation concurrently while         delivering or recording the live presentation via use of a         remote control device such as, for example, remote controller         1711 (FIG. 17).     -   Enlarge Presenter image. An example of this type of transition         is depicted in the sequence of screenshots of FIGS. 37-41, which         show a relatively small image of the Presenter (e.g., 3602,         FIG. 36) progressively growing in size to a relatively large         image of the presenter (e.g., 4102, FIG. 41) as the video         presentation progresses (e.g., as illustrated in FIGS. 37, 38,         39, 40). In at least some embodiments, the Presenter may         initiate the “Enlarge Presenter image” operation concurrently         while delivering or recording the live presentation via use of a         remote control device such as, for example, remote controller         1711 (FIG. 17).     -   Fade-in Graphic. An example of this type of transition is         illustrated in FIG. 41, which shows the graphic 4106 fading in         to the visible video presentation. In at least some embodiments,         the Presenter may initiate the “Fade-in Graphic” operation         concurrently while delivering or recording the live presentation         via use of a remote control device such as, for example, remote         controller 1711 (FIG. 17).     -   Fade-out Graphic. In one embodiment, the “Fade-out Graphic”         command may cause a selected graphic to fading out from the         visible video presentation. In at least some embodiments, the         Presenter may initiate the “Fade-out Graphic” operation         concurrently while delivering or recording the live presentation         via use of a remote control device such as, for example, remote         controller 1711 (FIG. 17).     -   FIG. 32—In this example screenshot, a relatively large image of         the Presenter 3202 is shown fading in to the video presentation.         The presentation whiteboard content 3204 (displayed in the         background, behind the Presenter) is currently configured to be         blank (e.g., white background).     -   FIG. 33—In this example screenshot, the relatively large image         of the Presenter 3302 is fully visible (e.g., 100% opaque) in         front of the blank presentation whiteboard content 3304         (displayed in the background).     -   FIG. 34—In this example screenshot, it is assumed that the         Presenter has initiated (e.g., during recording of the live         presentation) a “Shrink Presenter Image” operation to be         performed to cause the visible image of the Presenter to shrink         in size. In some embodiments, the final shrunken size of the         Presenter's image may be predefined or predetermined. In at         least some embodiments, the Presenter may initiate the “Shrink         Presenter Image” operation concurrently while delivering or         recording the live presentation via use of a remote control         device such as, for example, remote controller 1711 (FIG. 17).         Additionally, as illustrated in this example screenshot, the         presentation whiteboard content 3404 is shown fading in to the         visible video presentation.     -   FIG. 35—In this example screenshot, the presentation whiteboard         content 3504 is now fully visible (e.g., 100% opaque), and the         image of the Presenter 3502 has been shrunken and moved to the         bottom right corner of the visible video presentation.     -   FIG. 36—In this example screenshot, it is assumed that the image         of the Presenter 3602 has been shrunken to a predefined minimum         size, and has been repositioned to a selected or predetermined         location or region (e.g., bottom right corner region) within the         viewable portion of the video presentation.     -   FIG. 37—In this example screenshot, it is assumed that the         Presenter has initiated (e.g., during recording of the live         presentation) a “Enlarge Presenter Image” operation to be         performed to cause the visible image of the Presenter to enlarge         in size. In some embodiments, the final enlarged size of the         Presenter's image may be predefined or predetermined. In at         least some embodiments, the Presenter may initiate the “Enlarge         Presenter Image” operation concurrently while delivering or         recording the live presentation via use of a remote control         device such as, for example, remote controller 1711 (FIG. 17).         Additionally, as illustrated in this example screenshot, it is         assumed that the Presenter has initiated an action or operation         (e.g., during the recording of the live presentation) to cause         the whiteboard presentation content 3704 to display an image of         several work problems which have been manually annotated by the         Presenter (e.g., during the recording of the live presentation).     -   FIG. 38—In this example screenshot, it is assumed that the         Presenter has initiated (e.g., during recording of the live         presentation) a “Fade-out presentation whiteboard content”         operation to be performed to cause the visible presentation         whiteboard content to fade-out as the video presentation         progresses. In at least some embodiments, the Presenter may         initiate the “Fade-out presentation whiteboard content”         operation concurrently while delivering or recording the live         presentation via use of a remote control device such as, for         example, remote controller 1711 (FIG. 17).     -   FIG. 39—In this example screenshot, as the video presentation         progresses, the displayed Presenter image 3902 continues to         enlarge in size, and the displayed location of the Presenter         image continues to be migrated from the bottom right corner to         the center of the visible video presentation. Additionally, the         visible presentation whiteboard content 3902 continues to         fade-out as the video presentation progresses.     -   FIG. 40—In this example screenshot, as the video presentation         progresses, the displayed Presenter image 402 continues to         enlarge in size, and the displayed location of the Presenter         image continues to be repositioned toward the center of the         visible video presentation. Additionally, the presentation         whiteboard content 4004 is now blank (e.g., white background).     -   FIG. 41—In this example screenshot, it is assumed that the         Presenter has initiated (e.g., during recording of the live         presentation) a “Fade-out Presenter Image” operation to be         performed to cause the visible image of the Presenter 4102 to         fade-out as the video presentation progresses. Additionally, it         is assumed that the Presenter has initiated (e.g., during         recording of the live presentation) a “Fade-in Graphic” command,         thereby causing a selected graphic (e.g., 4106) to gradually         fade in as the video presentation progresses in time.

It is to be noted that, throughout the various transition operations which are initiated by the Presenter during the recording of the live presentation, the Presenter continuously maintains eye contact with the viewer (e.g., as depicted in the example screenshots of FIGS. 32-41). As discussed above, the Presenter's ability to maintain substantially continuous eye contact with camera/viewer while recording the live presentation for future streaming (or while delivering the live presentation for real-time streaming) is one of the advantageous features of the video presentation and digital composting techniques disclosed herein. As noted above, the Presenter's maintaining of eye contact throughout a video presentation is a way to create increased trust and confidence for students/viewers. Such eye contact also enables students to pick up on physical cues, and facilitates the Presenter when using physical gestures to illustrate a concept. Eye contact with the student helps to build the student's confidence, and helps to keep bored students more engaged and paying attention. Additionally, as noted above, using the various video presentation production techniques disclosed herein, the Presenter may maintain continuous eye contact with the camera during the recording of the live presentation, even while writing or annotating on notes which are displayed as part of the presentation whiteboard content in the video presentation.

Another advantageous feature of the video relates to the Presenter's ability to concurrently initiate and control (e.g., by his/her own self, and in real-time) video presentation transitions (e.g., such as those illustrated in the sequence of example screenshots of FIGS. 32-41) while the presenter is performing/recording the live presentation, without the need for assistance from one or more other persons, and/or without the need for performing any post-video production.

Additionally, the feature of providing the Presenter with the ability to dynamically modify (e.g., shrink and/or enlarge) the relative size of the Presenter's image in the video presentation at his/her will (e.g., during recording of the live presentation, and without the need to perform post-editing operations) allows the Presenter to create emphasis on presented topic(s)/subject matter by the very act of shrinking or enlarging his/her viewable image in the video presentation.

For example, in one example embodiment, the Presenter may cause (during recording of the live video presentation) the video presentation to begin with just a logo or graphic. Then, the Presenter may cause (during recording of the live video presentation) the logo/graphic to fade out, and may further cause the Presenter's image to fade in on “full screen” (e.g., as shown in FIG. 32). The Presenter may be introducing important material during this time, and the entire focus of the video presentation is on the Presenter. The Presenter may then go into the lesson itself, and may cause the Presenter's visible image (in the video presentation) to dynamically shrink down to smaller size, where presentation notes are viewable behind the Presenter. The viewer can now see the notes that the Presenter is annotating and referencing along with the nonverbal cues/gesticulations of the Presenter. At this point, both the notes and the Presenter are available to the audience. Should the Presenter want to emphasize a certain point during the notes discussion, the Presenter can dynamically enlarge (e.g., in real-time) his/her image so the Presenter now occupies the whole screen once more, cueing the audience that this is a key point in the presentation and forcing the audience to pay special attention. It is to be noted that this specific, purposeful enlarging/shrinking of the Presenter's image (e.g., as a way of indicating emphasis) is only made possible using embodiments of the video presentation production studio set up as described herein.

Other Benefits/Features/Advantages

According to different embodiments, the video presentation and digital composting techniques described herein may be configured, designed, and/or operable to provide, enable and/or facilitate implementation of a variety of different features, functionalities, benefits and/or advantages.

For example, using the video presentation and digital composting techniques described herein, the educational video presentation may be conducted entirely by the Presenter in real time. There is no need for a director, nor need for a 2nd person (e.g., “scribe”) to write notes as Presenter narrates. Nor is there any need to perform postproduction activities such as, for example, video editing and/or merging.

Moreover, because of how educational video presentation studio is set up, the Presenter can perform a variety of activities on the fly (e.g., in real-time, while video presentation is being recorded) such as, for example:

-   -   change camera angles,     -   position himself/herself at different parts of the screen,     -   change his transparency levels,     -   add annotations to the whiteboard presentation,     -   etc.

By the end of the filming session, the educational video presentation is ready to be uploaded, streamed and/or distributed. In other embodiments, the educational video presentation may be live streamed rather than recorded.

Via the use of Chroma key compositing (e.g., “green screen”) technology, the presentation whiteboard content (e.g., images, PowerPoint slides, a live image from a document camera, an electronic/computerized display, graphics, etc.) is not projected onto a physical screen behind the Presenter, but rather combined (e.g., in real-time) with the camera stream recording the Presenter. This advantageously avoids the undesirable scenario of needing to display two separate viewing boxes (e.g., 3012, 3014), as illustrated, for example, in FIG. 30. Additionally, instead of simply overlaying two videos on top of another (e.g., as illustrated in FIG. 31), the educational video presentation of the present application may utilize Chroma key compositing technology to superimpose only the Presenter's image (e.g., without distracting background) over selected regions/portions of the presentation whiteboard.

Using the various video presentation and digital composting techniques described herein, the video presentation (and recording thereof) may be performed entirely synchronously and in real-time, with no post-editing needed. For example, as illustrated in the example embodiment of FIG. 17, as the Presenter 1704 stands in front of the green screen 1702, he can view (e.g., in real-time) the presentation whiteboard content (e.g., 1713) as it is displayed (e.g., in real-time) on the Confidence Monitor 1710, which, for example, is positioned in front of the Presenter and directly adjacent to the camera 1708 recording the Presenter. Additionally, unlike conventional teleprompters (which displays only text), the Presenter may concurrently view an image himself (e.g., 1715) and the presentation whiteboard content (1713) on the Confidence Monitor (e.g., as viewed by the viewer/end user), thereby enabling the Presenter to angle/adjust his body movement(s) accordingly (e.g. to avoid blocking out portions of the presentation whiteboard content, to point to selected portions of the presentation went poor content, to interact with graphics/slides, etc.).

Additionally, using the various video presentation and digital composting techniques described herein, the Presenter can selectively, dynamically, and seamlessly change (e.g., in real-time) the display of presentation whiteboard content from notes, to graphics, to presentation, etc., without the Presenter having to change his position or noticeably move.

Further, via use of the various video presentation and digital composting techniques described herein, a viewer/end user is able to focus on one screen and view both the presentation whiteboard content and the Presenter simultaneously. In this way, the viewer is able to make eye contact with the Presenter and view the Presenter's facial expressions, while concurrently being able to view the notes, annotations, and/or other displayed content of the background presentation whiteboard.

Many embodiments of the video presentation and digital composting techniques described herein are distinct from currently existing video presentation embodiments, which utilize two separate windows (e.g., one window for the notes/presentation, and another window for the Presenter, as illustrated for example in FIG. 30). In these less desirable, existing video presentation embodiments, viewers have to watch notes or a presentation on the left, for instance, and the speaker on the right. As a result, the viewer's eye never quite knows where to “rest”, and the size of each image typically needs to be reduced significantly to share the screen space.

In contrast, using the various video presentation and digital composting techniques described herein a clean image of the Presenter may be seamlessly superimposed over background whiteboard content, notes, PowerPoint slides, etc., thereby avoiding the need for displaying an awkward rectangle of the Presenter (and distracting background) in a corner that blocks part of the presentation material (e.g., as illustrated in FIG. 31). Accordingly, in at least some embodiments of the video presentation and digital composting techniques described herein, a viewer/user is able to view the entire educational video presentation via a single window. Further, when the Presenter gestures to selected portions of the background presentation whiteboard content, it seamlessly appears as if Presenter is in a room with the presentation whiteboard directly behind.

In at least some embodiments, there is no display of distracting, non-relevant background, since, for example, the only background content which is displayed is the presentation whiteboard content. In contrast, what exists in the market shows the Presenter and distracting elements like a lamp, plants, and even a copy room. The mobile market is increasingly popular; people view videos on smartphones or tablets. Our method allows our videos to be optimized for such limited screen sizes.

One of the advantageous features of the video presentation and digital composting techniques described herein relates to the ability for viewers to clearly view Presenter's hand (and/or hand+pointer) pointing to specific locations, images, slides, text, annotations, and/or other portions of the displayed presentation whiteboard content. Not only is it helpful that the Presenter can actually point to something physical, it allows viewers (e.g., students) to mimic the same writing/notes on their own paper. This also provides a “connection” between the Presenter and viewer that further erodes the “4th wall” between the viewer and the viewed. That is, the viewer's (e.g., student's) ultimate medium is paper and pen, and educational video presentation may be deliberately configured or designed to facilitate the student's note taking activities, which are based on the content being presented in the educational video presentation.

In contrast, many currently existing video presentation embodiments are not configured or designed to facilitate the student's note taking activities. For example, currently existing video presentation embodiments may utilize transparent glow boards, physical whiteboards, etc. However, viewers/students are not annotating on such mediums while viewing the educational video presentation. For example, if a student (viewing an educational video presentation) watches a Presenter use a laser pointer to point at content presented via PowerPoint slide, the student then has to translate in his brain what that means on his own paper. Alternatively, if a student is watching an educational video presentation and taking notes using pen and paper, and if the Presenter uses a pen to point to notes on a physical paper (which is displayed as part of the presentation whiteboard content), this requires less mental processing/translation on the part of the student, and helps facilitate the student note taking activities.

Accordingly, it will be appreciated that many embodiments of the video presentation and digital composting techniques described herein are configured or designed to bring into alignment differences which may exist between students and teachers using older technology of paper and print (e.g. workbook) and those (teachers/Presenters) using newer technology (e.g. online educational video presentations), in order to facilitate the scaling and teaching of educational curriculum.

Mobile Device Video Presentation and Digital Composting Techniques

As described in greater detail herein, the various video presentation and digital composting techniques described herein may also be adapted for use and implementation on various types of mobile devices such as, for example, smart phones, tablets, laptop computers, iPads, and/or other similar types of mobile or portable electronic devices.

FIGS. 42-51 show example screenshots and system diagrams which may be utilized for implementing one or more of the mobile device based video presentation and digital composting aspects disclosed herein.

For example, FIG. 51 shows an example embodiment of a system configuration 5100 which may be used for conducting and/or recording a live stream video presentation session via a mobile device. As illustrated in the example embodiment of FIG. 51, the video presentation system configuration 5100 may include, but are not limited to, one or more of the following feature(s)/component(s) (or combinations thereof):

-   -   Physical background 5102 (or other color background, which is         compatible for use with Chroma key compositing).     -   A mobile device 5110 (such as a smart phone or tablet) which         includes first video recording device (e.g., front facing         camera, 5112), which may be used to capture and generate a video         feed of the Presenter 5104.     -   A second video recording device (e.g., rear facing camera of         mobile device 5110), which may be used to capture and generate a         video feed of a presentation whiteboard, notes, annotations,         documents, etc.     -   A video recording/presentation server having functionality         similar to that described in FIG. 17.     -   An electronic whiteboard (such as, for example, a notebook         computer), which may be configured or designed enable the         Presenter to generate digital content (e.g., notes, annotations,         images, text, documents, slides, etc.) to be displayed as part         of the presentation whiteboard feed. According to different         embodiments, the electronic whiteboard may be configured or         designed to communicate with the video recording/presentation         server via wired and/or wireless interface(s).     -   Confidence Monitor (e.g., mobile device display 5114) having         functionality similar to that described in FIG. 17.     -   A remote controller having functionality similar to that         described in FIG. 17. In at least some embodiments,         functionality relating to the remote controller may be         implemented via software running on the mobile device.     -   A Remote Annotation Device having functionality similar to that         described in FIG. 17. In at least some embodiments,         functionality relating to the remote annotation device may be         implemented via software running on the mobile device.     -   One or more interfaces (e.g., wireless communication interface         5121) for enabling the mobile device to communicate with one or         more local and/or remote network device(s), system(s),         network(s) etc.     -   And/or other feature(s)/component(s) described and/or referenced         herein.

In the specific example embodiment of FIG. 51, the mobile phone/device 5110 is mounted on a tripod, and the Presenter is shown standing in front of a solid colored backdrop 5102 (e.g., green screen, white screen, solid colored wall, etc.). However, in alternate embodiments, the conducting and/or recording of live stream video presentation sessions may be performed without the use of a green screen backdrop and/or tripod.

For example, in at least some embodiments, images, videos, slides, documents, animation, drawings, and/or other media/content may be streamed by the mobile device (e.g., as a whiteboard video-feed of a mobile presentation) and displayed on the mobile device display, while concurrently, a front facing camera and/or microphone of the mobile device may be used to capture real-time audio/video content of the Presenter which may be superimposed or overlaid over the whiteboard video-feed as narrations, comments, and/or Presenter video feeds. In at least one embodiment, the Presenter may hold the mobile device by hand, rather than using a tripod or other device mount.

According to different embodiments, one or more aspects of the live stream video presentation session may be implemented via use of an application running at the mobile device 5110. For example, in one embodiment, an application running at the mobile device 5110 may be configured or designed to include functionality for enabling or performing one or more of the following (or combinations thereof):

-   -   Generating and/or displaying one or more mobile video         presentation GUIs for facilitating streamed video         presentation(s) conducted via the mobile device.     -   Recording and/or broadcasting (e.g., in real-time) the Presenter         video feed.     -   Recording and/or broadcasting (e.g., in real-time) the         presentation whiteboard video feed.     -   Performing (e.g., in real-time) Chroma key compositing         operations for compositing the Presenter video feed and the         presentation whiteboard video feed.     -   Generating (e.g., in real-time) display output for displaying         (or streaming) the Presenter video feed, the presentation         whiteboard video feed, and/or composted video feeds.     -   And/or other types of video presentation/digital composting         aspects described and/or referenced herein.

In other embodiments, an application running at the mobile device 5110 may be configured or designed to communicate with a local and/or remote video presentation server which may be configured or designed to provide functionality relating to one or more of the video presentation and digital composting aspects disclosed herein. For example, in one embodiment, the mobile device 5110 may be configured or designed to capture the Presenter video feed and/or presentation whiteboard video feed, and to transmit such video feed(s) to a remote video presentation server for performing various operations such as, for example: performing Chroma key compositing operations for compositing the Presenter video feed and the presentation whiteboard video feed; generating display output for displaying (or streaming) the Presenter video feed, the presentation whiteboard video feed, and/or composted video feeds; etc.

FIGS. 42-50 show example screenshots of various mobile video presentation GUIs which may be utilized for implementing one or more of the mobile device based video presentation and digital composting aspects disclosed herein. In at least some embodiments, at least a portion of the mobile presentation GUIs of FIGS. 42-50 may be generated by a video presentation application running at the mobile device.

FIG. 42 illustrates an example screenshot of a graphical user interface (GUI) 4201 which may be configured or designed include functionality for enabling a user to initiate and/or perform various operation(s) and/or action(s) relating to mobile device based video presentations and digital composting techniques.

For example, as illustrated in the example embodiment of FIG. 42, GUI 4201 includes a Video Feed Selection GUI portion 4210 which provides functionality for enabling a user to selectively switch between desired video feeds, including, for example, one or more of the following (or combinations there one or more of the following (or combinations thereof):

-   -   Presenter Video Feed 4212.     -   Whiteboard video feed (e.g., presentation whiteboard video feed)         4214.     -   Overlay video feed 4216. In at least one embodiment, the Overlay         video feed may be implemented as a Chroma key composted video         feed of the Presenter video feed which is superimposed or         overlayed over the presentation whiteboard video feed (e.g., as         illustrated, for example, in FIG. 44).     -   And/or other feeds which may be streamed from the mobile device         to be used as part of the video presentation.

In at least one embodiment, the selection of the video feed (e.g., initiated via video feed selection GUI portion 4210) may be used to control the video feed which is displayed on mobile device display. In some embodiments, the selection of the video feed (e.g., initiated via video feed selection GUI portion 4210) may be used to control the video feed which is streamed to the end user(s).

As illustrated in the example embodiment of FIG. 42, GUI 4201 also includes a Chroma Key Filtering GUI portion 4230 which provides functionality for enabling a user to initiate, and/or perform one or more of the following operation(s), action(s), and/or feature(s) (or combinations thereof):

-   -   Functionality 4232 for capturing and/or identifying the         presentation background or backdrop (e.g., 5102, FIG. 51) for         use in performing Chroma key compositing operations relating to         the Presenter video feed.     -   Functionality 4234 for enabling the user to selectively         enable/disable use of the Chroma key compositing feature (e.g.,         “Green Screen effect”) on one or more channels/feeds of the         video presentation.     -   And/or other types of video presentation functionality described         and/or referenced herein.

In the example screenshot embodiment of FIG. 42, it is assumed that the user (e.g., the Presenter) has elected to display the Presenter Video feed (e.g., by tapping on the “Presenter Feed” button 4212), and has also enabled Chroma key filtering functionality to be applied to the Presenter Video feed to thereby generate a Chroma key filtered Presenter Video feed (e.g., as illustrated at the mobile device display of FIG. 42) in which the Presenter 4220 is visible, and the Presenter's backdrop 4202 has been filtered to be non-visible.

According to different embodiments, the Video Presentation System may be configured or designed to utilize various techniques for properly identifying characteristics of the presentation background for use in performing Chroma key compositing operations relating to the Presenter video feed. For example, in at least one embodiment, a user (e.g., the Presenter) may tap on the “Capture Presentation Background” button 4232 to cause the mobile device to capture an image of a portion of the background or backdrop which the Presenter will stand in front of during recording or streaming of the Presenter video feed. Using the captured image, the system may automatically identify the color and/or pattern of the backdrop/background (along with identifying other visual characteristics), and may use the identified backdrop color/pattern for performing Chroma key compositing operations relating to the Presenter video feed.

“Green Screen” Functionality.

In at least one embodiment, the Video Presentation System may be configured or designed to include “Green Screen” Chroma key composting functionality for use in implementing Chroma key compositing operations relating to the video presentation. For example, the Presenter may stand in front of a solid colored backdrop (e.g., green screen, white screen, solid colored wall, etc.), and a mobile device may be positioned to allow the mobile device camera to view the Presenter and background (e.g., as illustrated in FIG. 51). In one embodiment, a Video Presentation Application running at the mobile device may automatically and dynamically detect and identify the solid colored regions around the Presenter as background, and uses Chroma key color composting to remove (or filter out) the background from the Presenter Video Feed, as illustrated, for example, in FIG. 42. In one embodiment, the Presenter may tap on the “Capture Presentation Background” button 4232 to cause the mobile device to capture an image of the backdrop (or portion thereof). Using the captured image, the system may automatically identify the color of the backdrop/background, and may use the identified backdrop color for performing “green screen” type Chroma key compositing operations relating to the video presentation.

Background Filtering Functionality.

In at least one embodiment, the Video Presentation System may be configured or designed to include Background Filtering functionality which may be used for implementing Chroma key compositing operations relating to the video presentation. For example, in one embodiment, the Presenter (or other person) may use the mobile device to take a picture of the background scene which will be behind the Presenter during the presentation. Using the captured background image, the system may automatically scan and/or identify visible features of the background image (e.g., colors, patterns, shading, shadows, etc.), and may automatically associate these identified visible features as “Presenter Background” content. Subsequently, when the Presenter is delivering his or her presentation, a Video Presentation Application running at the mobile device may automatically and dynamically detect and filter out the Presenter Background content portion(s) from the Presenter video feed.

Alternatively, in at least some embodiments, the Video Presentation System may be configured or designed to include automated facial recognition functionality which may be used for implementing Chroma key compositing operations relating to the video presentation. For example, in one embodiment, the automated facial recognition functionality may analyze the video content of the Presenter which has been captured by the mobile device's front camera video feed, and automatically identify the portions of content corresponding to the Presenter's face, head, hair, body, etc. Using this information, the system may also automatically identify other portions of content from the Presenter video feed (e.g., content other than the Presenter's face, head, hair, body, etc.) as “Presenter Background” content, and may automatically filter out the Presenter Background content portion(s) when generating the Presenter video feed.

Additionally, in at least some embodiments, the Video Presentation System may be configured or designed to utilize other techniques for automatically distinguishing between portions of content corresponding to the Presenter (e.g., the Presenter's face, head, hair, body, hands, etc.) and portions of content corresponding to Presenter Background content such as, for example, one or more of the following (or combinations thereof):

-   -   Using distance or camera focal length to distinguish between         portions of content corresponding to the Presenter (e.g., the         Presenter's face, head, hair, body, hands, etc.) and portions of         content corresponding to Presenter Background.     -   Using motion to distinguish between portions of content         corresponding to the Presenter (e.g., the Presenter's face,         head, hair, body, hands, etc.) and portions of content         corresponding to Presenter Background.     -   Using contrast differentiation to distinguish between portions         of content corresponding to the Presenter (e.g., the Presenter's         face, head, hair, body, hands, etc.) and portions of content         corresponding to Presenter Background.     -   Etc.

Foreground/Background Identification Functionality.

In at least one embodiment, the Video Presentation System may be configured or designed to include functionality for enabling a user (e.g., Presenter) to provide input to the system for use in identifying foreground and/or background elements of the Presenter video feed. For example, in one embodiment, the mobile device may be configured to display a live or real-time version of the Presenter video feed, and the Presenter may tap on displayed elements of the Presenter video feed, and identify whether the identified elements are foreground or background. In some embodiments, the mobile device may be configured to display a recorded version of the Presenter video feed, and the Presenter may tap on displayed elements of the Presenter video feed, and identify whether the identified elements are foreground or background. In this way, the user is able to provide input to the system for use in identifying foreground and/or background elements of the Presenter video feed. In some embodiments, the Video Presentation System may be configured or designed to include artificial learning/intelligence capabilities for enabling the Video Presentation System to be trained to automatically identify and/or to learn detect and identify background elements of the Presenter video feed. Once the background elements have been identified by the system, the system may automatically and dynamically detect and filter out identified background elements from the Presenter video feed.

In at least some embodiments, some or all of the functions and/or features of the video presentation techniques described herein may be implemented via one or more applications running at the mobile device. For example, in some embodiments, a Video Presentation Application running on a mobile device may be configured or designed to cause the mobile device to execute machine readable instructions for implementing various types of functionality at the mobile device, including, for example, one or more of the following of (or combinations thereof):

-   -   Green Screen Functionality     -   Foreground/Background Identification Functionality     -   Background Filtering Functionality     -   Multicast streaming functionality;     -   And/or other types of video presentation functionality described         and/or referenced herein.

Alternatively, in at least some embodiments, some or all of the functions and/or features of the video presentation techniques described herein may be implemented via one or more local and/or remote servers. For example, in some embodiments, the Video Presentation System may include a remote server which includes functionality for providing various types of functions and/or features of the video presentation techniques described herein, including, for example, one or more of the following of (or combinations thereof): Green Screen Functionality; Foreground/Background Identification Functionality; Background Filtering Functionality; and/or other types of video presentation functionality described and/or referenced herein. For example, in some embodiments, the mobile device may be configured or designed to stream video feeds of the Presenter (e.g., which includes Presenter Background content) and the presentation content to a remote presentation server. The remote presentation server may be configured or designed to include functionality for automatically facilitating, enabling, initiating, and/or performing one or more of the following operation(s), action(s), and/or feature(s) (or combinations thereof):

-   -   Identifying Presenter Background content in the Presenter Video         feed, and automatically generating a filtered Presenter Video         feed in which the Presenter Background content portion(s) has         been filtered out.     -   Generating a composite video presentation feed comprising a         Chroma key composted video image of the filtered Presenter Video         feed overlaid or superimposed over a portion of the Presentation         Content feed.     -   Simultaneously streaming the composite video presentation feed         to a plurality of different end users.     -   And/or other types of video presentation functionality described         and/or referenced herein.

FIG. 43 illustrates an example screenshot of a graphical user interface (GUI) 4301 in which the Video Feed Selection GUI portion 4210 has been configured (e.g., via the user's input) to display a whiteboard video feed (e.g., presentation whiteboard video feed) on the mobile device display. According to different embodiments, the whiteboard video feed may be configured or designed to include various types of content from one or more different sources such as, for example, one or more of the following (or combinations thereof):

-   -   Image(s) captured by one of the mobile device's camera(s).     -   Video feed captured by one of the mobile device's camera(s). For         example, in one embodiment, a front camera of the mobile device         may be used to capture a live (or recorded) Presenter video         feed, while a rear camera of the mobile device may         simultaneously be used to capture a live (or recorded) video         feed of content which is to be displayed as part of the         presentation whiteboard.     -   Content (e.g., images, videos, files, graphs, documents, etc.)         stored in the local memory of the mobile device.     -   Content (e.g., images, videos, files, graphs, documents, etc.)         accessed or retrieved from remote network devices.     -   Content (e.g., images, videos, files, graphs, documents, etc.)         produced by 3^(rd) party applications running on the mobile         device.     -   Content (e.g., images, videos, files, graphs, documents, etc.)         generated using whiteboard presentation tools such as those         illustrated, for example, in FIG. 43 (e.g., whiteboard         presentation tools 4340, FIG. 9 (e.g., whiteboard presentation         tools 910, 950), etc. For example, in at least one embodiment, a         whiteboard editor GUI (e.g., having features similar to that of         Interactive Whiteboard GUI 901 of FIG. 9) may be used to         generate the graph 4332 which is displayed as part of the         presentation whiteboard content of FIG. 43.     -   Annotations made by the presenter or other persons. For example,         in one embodiment, the Presenter may generate annotations to be         displayed as part of the presentation whiteboard content by         directly writing (e.g., via use of a stylus or finger) on the         mobile device touch screen. This is illustrated, for example, by         the hand-drawn equation shown at 4334 of FIG. 43.     -   Digital feed(s) of the mobile device display and/or other         display devices.     -   And/or other types of content described and/or referenced         herein.

As illustrated in the example embodiment of FIG. 43, GUI 4301 also includes a Whiteboard Presentation Tool GUI portion 4330 which may be configured or designed to include functionality for enabling the Presenter (or other user) to initiate or perform various types of actions and/or operations relating to the presentation whiteboard feed and associated content. For example, as illustrated in the example embodiment of FIG. 43, Whiteboard Presentation Tool GUI portion 4330 may include one or more of the following (or combinations thereof):

-   -   Image-related Functionality (4342), such as, for example: using         the mobile device to access and/or capture image(s) to be         displayed as a part of the presentation whiteboard content;         inserting image(s) into the presentation whiteboard; editing         images displayed (and/or to be displayed) at the presentation         whiteboard; deleting images displayed at the presentation         whiteboard; etc.     -   Video-related Functionality (4344), such as, for example: using         the mobile device to access and/or capture video(s) to be         displayed as a part of the presentation whiteboard content;         inserting video(s) into the presentation whiteboard; editing         videos displayed (and/or to be displayed) at the presentation         whiteboard; deleting videos displayed at the presentation         whiteboard; etc.     -   Document-related Functionality (4346), such as, for example:         using the mobile device to generate and/or access document(s) to         be displayed as a part of the presentation whiteboard content;         inserting document(s) into the presentation whiteboard; editing         documents displayed (and/or to be displayed) at the presentation         whiteboard; deleting document(s) displayed at the presentation         whiteboard; etc.     -   Annotation-related Functionality (4348), such as, for example:         using the mobile device to generate and/or access annotations(s)         to be displayed as a part of the presentation whiteboard         content; inserting annotation(s) into the presentation         whiteboard; editing annotations displayed (and/or to be         displayed) at the presentation whiteboard; deleting         annotation(s) displayed at the presentation whiteboard; etc.     -   Text-related Functionality (4349), such as, for example: using         the mobile device to generate and/or access text to be displayed         as a part of the presentation whiteboard content; inserting text         into the presentation whiteboard; editing text displayed (and/or         to be displayed) at the presentation whiteboard; deleting text         displayed at the presentation whiteboard; etc.     -   Equation-related Functionality, such as, for example: using the         mobile device to generate and/or access equation(s) to be         displayed as a part of the presentation whiteboard content;         inserting equation(s) into the presentation whiteboard; editing         equations displayed (and/or to be displayed) at the presentation         whiteboard; deleting equation(s) displayed at the presentation         whiteboard; etc.     -   Graph-related Functionality, such as, for example: using the         mobile device to generate and/or access graph(s) to be displayed         as a part of the presentation whiteboard content; inserting         graph(s) into the presentation whiteboard; editing graphs         displayed (and/or to be displayed) at the presentation         whiteboard; deleting graph(s) displayed at the presentation         whiteboard; etc.     -   Drawing-related Functionality, such as, for example: using the         mobile device to generate and/or access drawing(s) to be         displayed as a part of the presentation whiteboard content;         inserting drawing(s) into the presentation whiteboard; editing         drawings displayed (and/or to be displayed) at the presentation         whiteboard; deleting drawing(s) displayed at the presentation         whiteboard; etc.     -   Chemistry-related Functionality, such as, for example: using the         mobile device to generate and/or access chemical structure(s) to         be displayed as a part of the presentation whiteboard content;         inserting chemical structure(s) into the presentation         whiteboard; editing chemical structures displayed (and/or to be         displayed) at the presentation whiteboard; deleting chemical         structure(s) displayed at the presentation whiteboard; etc.     -   And/or other types of whiteboard-related functionality described         and/or referenced herein.

FIG. 44 illustrates an example screenshot of a graphical user interface (GUI) 4401 in which the Video Feed Selection GUI portion 4210 has been configured (e.g., via the user's input) to display an overlay video feed at the mobile device display. In at least one embodiment, the overlay video feed may be implemented as a Chroma key composted video feed of the Presenter video feed (e.g., 4420) which is superimposed or overlayed over the presentation whiteboard video feed (e.g., 4432, 4434), as illustrated, for example, in FIG. 44. In at least some embodiments, the selection of the video feed (e.g., initiated via video feed selection GUI portion 4210) may also be used to control the output video feed which is streamed to the end user(s).

As illustrated in the example embodiments of FIGS. 44-50, the overlay video feed may be configured or designed to be displayed as a “picture-in-picture” (PiP) video presentation, which, for example, may collectively and simultaneously display a Chroma key composted video feed of the Presenter video feed and presentation whiteboard video feed. According to different embodiments, examples of the different types of content which may be displayed as part of the presentation whiteboard video feed may include, but is not limited to, one or more of the following (or combinations thereof):

-   -   manual/hand drawn notes;     -   whiteboard canvas(es);     -   annotations;     -   text;     -   animations;     -   pictures, images or other graphical content;     -   videos;     -   spreadsheets;     -   slide show;     -   documents/content generated by computer software (such as, for         example, Microsoft Word, Microsoft Power Point, etc.);     -   etc.

Unlike conventional video presentation techniques, the displayed presentation content (whether it be a PowerPoint slide, an electronic whiteboard, an image of a physical document, an iPad display, graphics, etc.) is not projected onto a screen behind the Presenter, but rather, is presented via separate display layer (e.g., in real-time), concurrently with the display of the Presenter video feed. For example, as illustrated in the example embodiment of FIG. 44, the Presenter video feed (e.g., shown at 4420) is overlaid or superimposed (e.g., via a separate overlay layer) over the displayed content (e.g., 4432, 4434) of the presentation whiteboard feed. In at least some embodiments, the Presenter may swipe the mobile device touchscreen to cause (e.g., in real-time, while recording or streaming the video presentation) the displayed presentation whiteboard content to change. For example, the Presenter may swipe the mobile device touchscreen to advance a slide show, display a new photo, video or document, etc. In at least some embodiments, the modification of the presentation whiteboard content by the Presenter in this manner does not affect the displayed content of the Presenter video feed portion (e.g., 4420) of the overlay video feed.

Additionally, as illustrated in the example embodiment of FIG. 44, a Chroma key compositing technique may be used to enable the Presenter video feed to display only the superimposed image of the Presenter (e.g., 4420), without displaying any of the background scene (e.g. background scene behind the Presenter), and without displaying any other distracting images, objects or other content. In this way, the video presentation and digital composting techniques described herein provide the benefit of significantly reducing or eliminating the “visual clutter” and unpleasant contrast, which typically accompanies conventional picture-in-picture displays.

In some embodiments, the video feed of the Presenter may be configured or designed to be displayed (e.g., at the end user's system) via an overlay layer (or overlay window), which is dynamically adjustable (e.g., by the end user) in size, position, transparency, etc. For example, as illustrated in the example screenshot GUIs of FIGS. 44-50, the user may select and move the Presenter overlay window (e.g., 4420) to a different desired location within the Video Presentation GUI, and/or may resize (e.g., reduce/enlarge) the Presenter image to make it larger (e.g., as illustrated in FIG. 48) or smaller (e.g., as illustrated in FIGS. 45, 46).

Additionally, as illustrated in the example screenshot GUIs of FIGS. 44-50, the displayed presentation whiteboard content/objects (e.g., 4432, 4434, etc.) may also dynamically adjustable (e.g., by the end user and/or by the Presenter) in size, position, transparency, etc. For example, as illustrated in the example screenshot GUIs of FIGS. 44-50, the user may move selected presentation whiteboard content/objects (e.g., 4432, 4434, etc.) to a different desired location within the Video Presentation GUI, and/or may resize (e.g., reduce/enlarge) selected presentation whiteboard content/objects to make them larger or smaller.

By way of illustration, starting with the Video Presentation GUI content and layout as shown in FIG. 44, a Presenter may elect to dynamically reconfigure (e.g., in real-time, while recording or streaming the video presentation) selected aspects of the layout and/or content of the Video Presentation GUI to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4501 of FIG. 45. In this particular example, the Presenter may initiate or perform (e.g., in real-time, while recording or streaming the video presentation) various operations to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4501 of FIG. 45, including, for example:

-   -   Resize and/or move the Presenter feed overlay (e.g., 4420).     -   Resize and/or move graph 4432.     -   Resize and/or move annotation content 4434.     -   Insert additional annotation content 4536.     -   Insert and position equation 4538.     -   Hide display of the Video Feed Selection GUI and Whiteboard         Presentation Tool GUI.     -   Toggle presenter feed on/off during duration of recording or         streaming     -   Etc.

In another example, the Presenter may elect to dynamically reconfigure (e.g., in real-time, while recording or streaming the video presentation) selected aspects of the layout and/or content of the Video Presentation GUI to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4601 of FIG. 46. In this particular example, the Presenter may initiate or perform (e.g., in real-time, while recording or streaming the video presentation) various operations to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4601 of FIG. 46, including, for example:

-   -   Resize and/or move the Presenter feed overlay (e.g., 4420).     -   Resize and/or move graph 4432.     -   Resize and/or move annotation content, equation content, etc.         (e.g., 4634).     -   Toggle presenter feed on/off during duration of recording or         streaming     -   Etc.

In a different example, the Presenter may elect to dynamically reconfigure (e.g., in real-time, while recording or streaming the video presentation) selected aspects of the layout and/or content of the Video Presentation GUI to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4701 of FIG. 47. In this particular example, the Presenter may initiate or perform (e.g., in real-time, while recording or streaming the video presentation) various operations to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4701 of FIG. 47, including, for example:

-   -   Remove previously displayed presentation whiteboard         elements/content.     -   Resize and/or move the Presenter feed overlay (e.g., 4420).     -   Insert text content 4732. In one embodiment, the user may access         text editor functionality for generating and inserting text         content 4732 into the electronic presentation whiteboard. In         other embodiments, the displayed text content 4732 may         correspond to a portion of a document or image (e.g., snapshot         of textbook page) which has been inserted (or copied and pasted)         into the electronic presentation whiteboard.     -   Insert additional annotation content 4734.     -   Etc.

In the specific example embodiment of FIG. 48, it is assumed that the Presenter has enlarged and moved the Presenter feed overlay 4420. Additionally, it is assumed in this example that the Presenter has enabled display and use of a presentation pointer (4811). In some embodiments, the Presenter may operate and control the presentation pointer (e.g., in real-time, while recording or streaming the video presentation) via hand/finger gestures performed on the mobile device touchscreen display. In other embodiments, the Presenter may operate and control the presentation pointer (e.g., in real-time, while recording or streaming the video presentation) via use of a wireless mouse pointer or other wireless device.

FIG. 49 illustrates an example screenshot of an overlay video feed which is displayed via the mobile device display. In the specific example of FIG. 49, it is assumed that the Presenter desires to use his mobile device to conduct a streamed video presentation of himself as he is playing a video game on the mobile device. As part of the streamed video presentation, the Presenter wants viewers to be able to see the video game graphics/content, and also to see the Presenter's face and facial expressions as he plays the video game (e.g., in real-time).

Accordingly, the Presenter may dynamically configure selected aspects of the layout and/or content of the Video Presentation GUI to cause the overlay presentation feed to appear as illustrated in the Video Presentation GUI 4901 of FIG. 49. As illustrated in the example embodiment of FIG. 49, the Presenter video feed portion (e.g., 4420) is superimposed or overlayed over a presentation background feed (e.g., 4930) which, in this particular example, has been configured to display a video game feed of a video game application running at the mobile device. According to different embodiments, the displayed video game content may be generated by a video game application running at the mobile device and/or running on a remote server. In some embodiments, the video game feed may be generated in real-time, as the Presenter is playing the video game. In other embodiments, the video game feed may be generated using one or more pre-recorded video clip(s) of the video game display.

In at least one embodiment, the Presenter video feed portion (e.g., 4420) may be superimposed over the presentation background feed (e.g., 4930) using Chroma key composting technique(s) described and/or referenced herein. In other embodiments, as illustrated, for example, in the Video Presentation GUI 5001 of FIG. 50, the Presenter video feed portion may be superimposed or overlayed over the presentation background feed 5030 using a picture-in-picture overlay window (e.g., 5020).

According to different embodiments, the video presentation system may be configured or designed to include functionality for simultaneously or concurrently multicasting multiple feeds of a mobile video presentation to a plurality of end users. For example, in one embodiment, the video presentation feed(s) generated at the mobile device may be transmitted to one or more local and/or remote server(s) which include functionality for simultaneously or concurrently multicasting multiple feeds of a mobile video presentation to a plurality of end users. In other embodiments, the mobile device may be configured or designed to include functionality for simultaneously or concurrently multicasting (e.g., from the mobile device) multiple feeds of a mobile video presentation to a plurality of end users.

Picture-in-Picture (PIP) Applications

In addition to educational video presentations, various aspects and features of the video presentation and digital composting techniques described herein may also be advantageously employed in video display techniques utilizing Picture-in-Picture (PIP) technology, such as, for example, television displays, video streaming displays, and/or other display systems utilizing Picture-in-Picture (PIP) technology.

For example, FIGS. 26 and 28 illustrate example screenshot embodiments of currently existing Picture-in-Picture (PiP) display techniques. More specifically, FIG. 26 shows an example screenshot of a sports-related web page 2600 which has been configured or designed to display a main video presentation window 2610 and separate PiP commentator windows 2612, 2614, wherein each PiP commentator window may include a video feed of a respectively different commentator who may be commenting on the activity displayed within the main video presentation window, and/or may be participating in a discussion with other commentator(s) displayed via other PiP commentator windows of the web page 2600. A viewer wishing to observe and follow along with the various activities occurring on the web page 2600 may be required to continually shift his or her focus and/or attention from one of the displayed video windows (e.g., 2610, 2612, 2614) to another. As a result, the viewer's eye never quite knows where to “rest”. Additionally, as illustrated in the example embodiment of FIG. 26, the content displayed in each PiP commentator window includes not only an image of the commentator, but also unnecessarily includes distracting background images and/or scenery which is viewable behind the commentator.

In contrast, FIG. 27 illustrates an alternate example screenshot embodiment of a similar sports-related web page, in which features of the video presentation and digital composting techniques described herein are utilized to generate and display new and improved Picture-in-Picture (PiP) window configurations (e.g., 2712, 2714). As illustrated in the example embodiment of FIG. 27, the sports-related web page 2700 has been configured or designed to display a main video presentation window 2710 and separate digitally composted PiP commentator “windows” or overlay regions 2712, 2714. In at least one embodiment, each digitally composted PiP commentator region may be configured or designed to display a respective video feed of a respectively different commentator who may be commenting on the activity displayed within the main video presentation window, and/or may be participating in discussions with other commentator(s) displayed via other digitally composted PiP commentator windows of the web page 2700. As illustrated in the example embodiment of FIG. 27, the content displayed in each digitally composted PiP commentator region (e.g., 2712, 2714) includes only the image of the commentator, and omits display of the distracting background images/scenery behind the commentator. Using the digitally composted PiP display techniques illustrated in FIG. 27, a viewer will have an easier time in observing and following along with the activities and discussions occurring on the web page 2700 (as compared to that of FIG. 26).

FIG. 28 shows an example screenshot of a PiP television display 2800 having a primary display window 2810 for displaying TV content (e.g., police drama) associated with a first TV channel, and having a PiP window 2820 for displaying different TV content (e.g., tennis match) associated with a different TV channel. While, this type of PiP configuration may be useful for displaying non-synchronized dual-channel presentations, there are numerous drawbacks and disadvantages for using this type of PIP configuration for displaying educational video presentations and/or other types of synchronized dual-channel presentations, as discussed previously herein, as illustrated in the example embodiment of FIG. 28, a person is watching the police drama, and can glance at the tennis match intermittently (for instance, to see the score). One channel does not add nor detract from the other. In educational videos, having the PIP block a portion of the underlying screen content may be detrimental to the student and/or educational experience.

FIG. 29 illustrates an alternate example screenshot embodiment of a PiP television display, in which features of the video presentation and digital composting techniques described herein are utilized to generate and display a digitally composted Picture-in-Picture (PiP) window configuration having a primary display window 2910 for displaying TV content (e.g., police drama) associated with a first TV channel, and having a digitally composted PiP portions (e.g., 2922, 2923, 2924) for displaying filtered portions of TV content (e.g., players of a tennis match) associated with a different TV channel In at least one embodiment, each digitally composted PiP region (e.g., 2922, 2923, 2924) may be configured or designed to display only filtered portions of content (such as, for example, people, moving objects, etc.) derived from the broadcast or streamed content of a given TV channel (or other video source). Additionally, as illustrated in the example embodiment of FIG. 29, the filtered content displayed in the digitally composted PiP regions (e.g., 2922, 2923, 2924) may deliberately omit display of unwanted or distracting images/scenery.

FIG. 2 shows a diagrammatic representation of machine in the exemplary form of a client (or end user) computer system 200 within which a set of instructions, for causing the machine to perform any one or more of the methodologies discussed herein, may be executed. In alternative embodiments, the machine operates as a standalone device or may be connected (e.g., networked) to other machines. In a networked deployment, the machine may operate in the capacity of a server or a client machine in server-client network environment, or as a peer machine in a peer-to-peer (or distributed) network environment. The machine may be a personal computer (PC), a tablet PC, a set-top box (STB), a Personal Digital Assistant (PDA), a cellular telephone, a web appliance, a network router, switch or bridge, or any machine capable of executing a set of instructions (sequential or otherwise) that specify actions to be taken by that machine. Further, while only a single machine is illustrated, the term “machine” shall also be taken to include any collection of machines that individually or jointly execute a set (or multiple sets) of instructions to perform any one or more of the methodologies discussed herein.

The exemplary computer system 200 includes a processor 202 (e.g., a central processing unit (CPU), a graphics processing unit (GPU) or both), a main memory 204 and a static memory 206, which communicate with each other via a bus 208. The computer system 200 may further include a video display unit 210 (e.g., a liquid crystal display (LCD) or a cathode ray tube (CRT)). The computer system 200 also includes an alphanumeric input device 212 (e.g., a keyboard), a user interface (UI) navigation device 214 (e.g., a mouse), a disk drive unit 216, a signal generation device 218 (e.g., a Presenter) and a network interface device 220.

The disk drive unit 216 includes a machine-readable medium 222 on which is stored one or more sets of instructions and data structures (e.g., software 224) embodying or utilized by any one or more of the methodologies or functions described herein. The software 224 may also reside, completely or at least partially, within the main memory 204 and/or within the processor 202 during execution thereof by the computer system 200, the main memory 204 and the processor 202 also constituting machine-readable media.

The software 224 may further be transmitted or received over a network 226 via the network interface device 220 utilizing any one of a number of well-known transfer protocols (e. g., HTTP).

While the machine-readable medium 222 is shown in an exemplary embodiment to be a single medium, the term “machine-readable medium” should be taken to include a single medium or multiple media (e.g., a centralized or distributed database, and/or associated caches and servers) that store the one or more sets of instructions. The term “machine-readable medium” shall also be taken to include any medium that is capable of storing, encoding or carrying a set of instructions for execution by the machine and that cause the machine to perform any one or more of the methodologies of the present invention, or that is capable of storing, encoding or carrying data structures utilized by or associated with such a set of instructions. The term “machine-readable medium” shall accordingly be taken to include, but not be limited to, solid-state memories, optical and magnetic media, and carrier wave signals. Although an embodiment of the present invention has been described with reference to specific exemplary embodiments, it may be evident that various modifications and changes may be made to these embodiments without departing from the broader spirit and scope of the invention. Accordingly, the specification and annotations/drawings are to be regarded in an illustrative rather than a restrictive sense.

According to various embodiments, Client Computer System 200 may include a variety of components, modules and/or systems for providing various types of functionality. For example, in at least one embodiment, Client Computer System 200 may include a web browser application which is operable to process, execute, and/or support the use of scripts (e.g., JavaScript, AJAX, etc.), Plug-ins, executable code, virtual machines, HTML5 vector-based web animation (e.g., Adobe Flash), etc.

In at least one embodiment, the web browser application may be configured or designed to instantiate components and/or objects at the Client Computer System in response to processing scripts, instructions, and/or other information received from a remote server such as a web server. Examples of such components and/or objects may include, but are not limited to, one or more of the following (or combinations thereof):

UI Components such as those illustrated, described, and/or referenced herein.

Database Components such as those illustrated, described, and/or referenced herein.

Processing Components such as those illustrated, described, and/or referenced herein.

Other Components which, for example, may include components for facilitating and/or enabling the Client Computer System to perform and/or initiate various types of Online Social Education operations, activities, and functions such as those described herein.

FIG. 3 is a simplified block diagram of an example client system 300 in accordance with a specific embodiment. In at least one embodiment, the client system may include Online Social Education Mobile Device App Component(s) which have been configured or designed to provide functionality for enabling or implementing at least a portion of the various online social education and video presentation techniques at the client system.

According to specific embodiments, various aspects, features, and/or functionalities of the Mobile Device may be performed, implemented and/or initiated by one or more of the following types of systems, components, systems, devices, procedures, processes, etc. (or combinations thereof):

-   -   Processor(s) 310     -   Device Drivers 342     -   Memory 316     -   Interface(s) 306     -   Power Source(s)/Distribution 343     -   Geolocation module 346     -   Display(s) 335     -   I/O Devices 330     -   Audio/Video devices(s) 339     -   Peripheral Devices 331     -   Motion Detection module 340     -   User Identification/Authentication module 347     -   Mobile Device App Component(s) 360     -   UI Component(s) 362     -   Database Component(s) 364     -   Processing Component(s) 366     -   Software/Hardware Authentication/Validation 344     -   Wireless communication module(s) 345     -   Information Filtering module(s) 349     -   Speech Processing module 354     -   Scanner/Camera 352     -   OCR Processing Engine 356     -   etc.

As illustrated in the example of FIG. 3 Mobile Device 300 may include a variety of components, modules and/or systems for providing various functionalities. For example, as illustrated in FIG. 3, Mobile Device 300 may include Mobile Device Application components (e.g., 360), which, for example, may include, but are not limited to, one or more of the following (or combinations thereof):

-   -   UI Components 362 such as those illustrated, described, and/or         referenced herein.     -   Database Components 364 such as those illustrated, described,         and/or referenced herein.     -   Processing Components 366 such as those illustrated, described,         and/or referenced herein.     -   Other Components 368 which, for example, may include components         for facilitating and/or enabling the Mobile Device to perform         and/or initiate various types of Online Social Education         operations, activities, and functions such as those described         herein.

In at least one embodiment, the Mobile Device Application component(s) may be operable to perform and/or implement various types of Online Social Education/Interactive Study Wall functions, operations, actions, and/or other features such as, for example, one or more of those described and/or referenced herein.

According to specific embodiments, multiple instances or threads of the Mobile Device Application component(s) may be concurrently implemented and/or initiated via the use of one or more processors and/or other combinations of hardware and/or hardware and software. For example, in at least some embodiments, various aspects, features, and/or functionalities of the Mobile Device Application component(s) may be performed, implemented and/or initiated by one or more systems, components, systems, devices, procedures, processes, etc. (or combinations thereof) described and/or referenced herein.

According to different embodiments, one or more different threads or instances of the Mobile Device Application component(s) may be initiated in response to detection of one or more conditions or events satisfying one or more different types of minimum threshold criteria for triggering initiation of at least one Online Social Education feature, action or operation of the Mobile Device Application component(s). Various examples of conditions or events, which may trigger initiation and/or implementation of one or more different threads or instances of the Mobile Device Application component(s), may include, but are not limited to, one or more types of conditions and/or events described or referenced herein.

In at least one embodiment, a given instance of the Mobile Device Application component(s) may access and/or utilize information from one or more associated databases. In at least one embodiment, at least a portion of the database information may be accessed via communication with one or more local and/or remote memory devices. Examples of different types of data which may be accessed by the Mobile Device Application component(s) may include, but are not limited to, one or more different types of data, metadata, and/or other information described and/or referenced herein.

According to different embodiments, Mobile Device 300 may further include, but is not limited to, one or more of the following types of components, modules and/or systems (or combinations thereof):

-   -   At least one processor 310. In at least one embodiment, the         processor(s) 310 may include one or more commonly known CPUs,         which are deployed in many of today's consumer electronic         devices, such as, for example, CPUs or processors from the         Motorola or Intel family of microprocessors, etc. In an         alternative embodiment, at least one processor may be specially         designed hardware for controlling the operations of the client         system. In a specific embodiment, a memory (such as non-volatile         RAM and/or ROM) also forms part of CPU. When acting under the         control of appropriate software or firmware, the CPU may be         responsible for implementing specific functions associated with         the functions of a desired network device. The CPU preferably         accomplishes all these functions under the control of software         including an operating system, and any appropriate applications         software.     -   Memory 316, which, for example, may include volatile memory         (e.g., RAM), non-volatile memory (e.g., disk memory, FLASH         memory, EPROMs, etc.), unalterable memory, and/or other types of         memory. In at least one implementation, the memory 316 may         include functionality similar to at least a portion of         functionality implemented by one or more commonly known memory         devices such as those described herein and/or generally known to         one having ordinary skill in the art. According to different         embodiments, one or more memories or memory modules (e.g.,         memory blocks) may be configured or designed to store data,         program instructions for the functional operations of the client         system and/or other information relating to the functionality of         the various online social education and video presentation         techniques described herein. The program instructions may         control the operation of an operating system and/or one or more         applications, for example. The memory or memories may also be         configured to store data structures, metadata, timecode         synchronization information, audio/visual media content, asset         file information, keyword taxonomy information, advertisement         information, and/or information/data relating to other         features/functions described herein. Because such information         and program instructions may be employed to implement at least a         portion of the online social education and video presentation         techniques described herein, various aspects described herein         may be implemented using machine readable media that include         program instructions, state information, etc. Examples of         machine-readable media include, but are not limited to, magnetic         media such as hard disks, floppy disks, and magnetic tape;         optical media such as CD-ROM disks; magneto-optical media such         as floptical disks; and hardware devices that are specially         configured to store and perform program instructions, such as         read-only memory devices (ROM) and random access memory (RAM).         Examples of program instructions include both machine code, such         as produced by a compiler, and files containing higher level         code that may be executed by the computer using an interpreter.     -   Interface(s) 306 which, for example, may include wired         interfaces and/or wireless interfaces. In at least one         implementation, the interface(s) 306 may include functionality         similar to at least a portion of functionality implemented by         one or more computer system interfaces such as those described         herein and/or generally known to one having ordinary skill in         the art. For example, in at least one implementation, the         wireless communication interface(s) may be configured or         designed to communicate with selected electronic game tables,         computer systems, remote servers, other wireless devices (e.g.,         PDAs, cell phones, player tracking transponders, etc.), etc.         Such wireless communication may be implemented using one or more         wireless interfaces/protocols such as, for example, 802.11         (WiFi), 802.15 (including Bluetooth™), 802.16 (WiMax), 802.22,         Cellular standards such as CDMA, CDMA2000, WCDMA, Radio         Frequency (e.g., RFID), Infrared, Near Field Magnetics, etc.     -   Device driver(s) 342. In at least one implementation, the device         driver(s) 342 may include functionality similar to at least a         portion of functionality implemented by one or more computer         system driver devices such as those described herein and/or         generally known to one having ordinary skill in the art.     -   At least one power source (and/or power distribution source)         343. In at least one implementation, the power source may         include at least one mobile power source (e.g., battery) for         allowing the client system to operate in a wireless and/or         mobile environment. For example, in one implementation, the         power source 343 may be implemented using a rechargeable,         thin-film type battery. Further, in embodiments where it is         desirable for the device to be flexible, the power source 343         may be designed to be flexible.     -   Geolocation module 346 which, for example, may be configured or         designed to acquire geolocation information from remote sources         and use the acquired geolocation information to determine         information relating to a relative and/or absolute position of         the client system.     -   Motion detection component 340 for detecting motion or movement         of the client system and/or for detecting motion, movement,         gestures and/or other input data from user. In at least one         embodiment, the motion detection component 340 may include one         or more motion detection sensors such as, for example, MEMS         (Micro Electro Mechanical System) accelerometers, that can         detect the acceleration and/or other movements of the client         system as it is moved by a user.     -   User Identification/Authentication module 347. In one         implementation, the User Identification module may be adapted to         determine and/or authenticate the identity of the current user         or owner of the client system. For example, in one embodiment,         the current user may be required to perform a log in process at         the client system in order to access one or more features.         Alternatively, the client system may be adapted to automatically         determine the identity of the current user based upon one or         more external signals such as, for example, an RFID tag or badge         worn by the current user which provides a wireless signal to the         client system for determining the identity of the current user.         In at least one implementation, various security features may be         incorporated into the client system to prevent unauthorized         users from accessing confidential or sensitive information.     -   One or more display(s) 335. According to various embodiments,         such display(s) may be implemented using, for example, LCD         display technology, OLED display technology, and/or other types         of conventional display technology. In at least one         implementation, display(s) 335 may be adapted to be flexible or         bendable. Additionally, in at least one embodiment the         information displayed on display(s) 335 may utilize e-ink         technology (such as that available from E Ink Corporation,         Cambridge, Mass., www.eink.com), or other suitable technology         for reducing the power consumption of information displayed on         the display(s) 335.     -   One or more user I/O Device(s) 330 such as, for example, keys,         buttons, scroll wheels, cursors, touchscreen sensors, audio         command interfaces, magnetic strip reader, optical scanner, etc.     -   Audio/Video device(s) 339 such as, for example, components for         recording, editing, and/or displaying audio/visual media which,         for example, may include cameras, Presenters, microphones, media         presentation components, wireless transmitter/receiver devices         for enabling wireless audio and/or visual communication between         the client system 300 and remote devices (e.g., radios,         telephones, computer systems, etc.). For example, in one         implementation, the audio system may include componentry for         enabling the client system to function as a cell phone or         two-way radio device.     -   Other types of peripheral devices 331 which may be useful to the         users of various client systems, such as, for example: PDA         functionality; memory card reader(s); fingerprint reader(s);         image projection device(s); social networking peripheral         component(s); etc.     -   Information filtering module(s) 349, which, for example, may be         adapted to automatically and dynamically generate, using one or         more filter parameters, filtered information to be displayed on         one or more displays of the mobile device. In one         implementation, such filter parameters may be customizable by         the player or user of the device. In some embodiments,         information filtering module(s) 349 may also be adapted to         display, in real-time, filtered information to the user based         upon a variety of criteria such as, for example, geolocation         information, contextual activity information, and/or other types         of filtering criteria described and/or referenced herein.     -   Wireless communication module(s) 345. In one implementation, the         wireless communication module 345 may be configured or designed         to communicate with external devices using one or more wireless         interfaces/protocols such as, for example, 802.11 (WiFi), 802.15         (including Bluetooth™), 802.16 (WiMax), 802.22, Cellular         standards such as CDMA, CDMA2000, WCDMA, Radio Frequency (e.g.,         RFID), Infrared, Near Field Magnetics, etc.     -   Software/Hardware Authentication/validation components 344         which, for example, may be used for authenticating and/or         validating local hardware and/or software components,         hardware/software components residing at a remote device, game         play information, wager information, user information and/or         identity, etc.     -   Scanner/Camera Component(s) (e.g., 352) which may be configured         or designed for use in scanning identifiers and/or other content         from other devices and/or objects such as for example: mobile         device displays, computer displays, static displays (e.g.,         printed on tangible mediums), etc.     -   OCR Processing Engine (e.g., 356) which, for example, may be         operable to perform image processing and optical character         recognition of images such as those captured by a mobile device         camera, for example.     -   Speech Processing module (e.g., 354) which, for example, may be         operable to perform speech recognition, and may be operable to         perform speech-to-text conversion.     -   Etc.

FIG. 4 illustrates an example embodiment of a server system 480 which may be used for implementing various aspects/features described herein. In at least one embodiment, the OCD server system 480 includes at least one network device 460, and at least one storage device 470 (such as, for example, a direct attached storage device). In one embodiment, server system 480 may be suitable for implementing at least some of the online social education and video presentation techniques described herein.

In according to one embodiment, network device 460 may include a master central processing unit (CPU) 462, interfaces 468, and a bus 467 (e.g., a PCI bus). When acting under the control of appropriate software or firmware, the CPU 462 may be responsible for implementing specific functions associated with the functions of a desired network device. For example, when configured as a server, the CPU 462 may be responsible for analyzing packets; encapsulating packets; forwarding packets to appropriate network devices; instantiating various types of virtual machines, virtual interfaces, virtual storage volumes, virtual appliances; etc. The CPU 462 preferably accomplishes at least a portion of these functions under the control of software including an operating system (e.g. Linux), and any appropriate system software (such as, for example, AppLogic™ software).

CPU 462 may include one or more processors 463 such as, for example, one or more processors from the AMD, Motorola, Intel and/or MIPS families of microprocessors. In an alternative embodiment, processor 463 may be specially designed hardware for controlling the operations of server system 480. In a specific embodiment, a memory 461 (such as non-volatile RAM and/or ROM) also forms part of CPU 462. However, there may be many different ways in which memory could be coupled to the OSES Server. Memory block 461 may be used for a variety of purposes such as, for example, caching and/or storing data, programming instructions, etc.

The interfaces 468 may be typically provided as interface cards (sometimes referred to as “line cards”). Alternatively, one or more of the interfaces 468 may be provided as on-board interface controllers built into the OSES Server motherboard. Generally, they control the sending and receiving of data packets over the network and sometimes support other peripherals used with the OCD server system 480. Among the interfaces that may be provided may be FC interfaces, Ethernet interfaces, frame relay interfaces, cable interfaces, DSL interfaces, token ring interfaces, Infiniband interfaces, and the like. In addition, various very high-speed interfaces may be provided, such as fast Ethernet interfaces, Gigabit Ethernet interfaces, ATM interfaces, HSSI interfaces, POS interfaces, FDDI interfaces, ASI interfaces, DHEI interfaces and the like. Other interfaces may include one or more wireless interfaces such as, for example, 802.11 (WiFi) interfaces, 802.15 interfaces (including Bluetooth™), 802.16 (WiMax) interfaces, 802.22 interfaces, Cellular standards such as CDMA Interfaces, CDMA2000 interfaces, WCDMA Interfaces, TDMA Interfaces, Cellular 3G interfaces, etc.

Generally, one or more interfaces may include ports appropriate for communication with the appropriate media. In some cases, they may also include an independent processor and, in some instances, volatile RAM. The independent processors may control such communications intensive tasks as packet switching, media control and management. By providing separate processors for the communications intensive tasks, these interfaces allow the master microprocessor 462 to efficiently perform routing computations, network diagnostics, security functions, etc.

In at least one embodiment, some interfaces may be configured or designed to allow the OCD server system 480 to communicate with other network devices associated with various local area network (LANs) and/or wide area networks (WANs). Other interfaces may be configured or designed to allow network device 460 to communicate with one or more direct attached storage device(s) 470.

Although the OSES Server shown in FIG. 4 illustrates one specific network device described herein, it is by no means the only network device architecture on which one or more embodiments can be implemented. For example, an architecture having a single processor that handles communications as well as routing computations, etc. may be used. Further, other types of interfaces and media could also be used with the network device.

Regardless of network device's configuration, it may employ one or more memories or memory modules (such as, for example, memory block 465, which, for example, may include random access memory (RAM)) configured to store data, program instructions for the general-purpose network operations and/or other information relating to the functionality of the various online social education and video presentation techniques described herein. The program instructions may control the operation of an operating system and/or one or more applications, for example. The memory or memories may also be configured to store data structures, and/or other specific non-program information described herein.

Because such information and program instructions may be employed to implement the OSES Servers/methods described herein, one or more embodiments relates to machine readable media that include program instructions, state information, etc. for performing various operations described herein. Examples of machine-readable storage media include, but are not limited to, magnetic media such as hard disks, floppy disks, and magnetic tape; optical media such as CD-ROM disks; magneto-optical media such as optical disks; and hardware devices that may be specially configured to store and perform program instructions, such as read-only memory devices (ROM) and random access memory (RAM). Some embodiments may also be embodied in transmission media such as, for example, a carrier wave travelling over an appropriate medium such as airwaves, optical lines, electric lines, etc. Examples of program instructions include both machine code, such as produced by a compiler, and files containing higher level code that may be executed by the computer using an interpreter.

FIG. 5 illustrates an example of a functional block diagram of an Online Social Education System in accordance with a specific embodiment.

In at least one embodiment, the Online Social Education System may be operable to perform and/or implement various types of Online Social Education functions, operations, actions, and/or other features, such as, for example, one or more of those described and/or referenced herein.

In at least one embodiment, the Online Social Education System may include a plurality of components operable to perform and/or implement various types of Online Social Education functions, operations, actions, and/or other features such as, for example, one or more of the following (or combinations thereof):

-   -   Context Interpreter (e.g., 502) which, for example, may be         operable to automatically and/or dynamically analyze contextual         criteria relating to a detected set of event(s) and/or         condition(s), and automatically determine or identify one or         more contextually appropriate response(s) based on the         contextual interpretation of the detected event(s)/condition(s).         According to different embodiments, examples of contextual         criteria which may be analyzed may include, but are not limited         to, one or more of the following (or combinations thereof):         -   location-based criteria (e.g., geolocation of client device,             geolocation of agent device, etc.)         -   time-based criteria         -   identity of user(s)         -   user profile information         -   transaction history information         -   recent user activities         -   proximate business-related criteria (e.g., criteria which             may be used to determine whether the client device is             currently located at or near a recognized business             establishment such as a bank, gas station, restaurant,             supermarket, etc.)         -   etc.     -   Time Synchronization Engine (e.g., 504) which, for example, may         be operable to manages universal time synchronization (e.g., via         NTP and/or GPS)     -   Search Engine (e.g., 528) which, for example, may be operable to         search for transactions, logs, items, accounts, options in the         Online Social Education databases     -   Configuration Engine (e.g., 532) which, for example, may be         operable to determine and handle configuration of various         customized configuration parameters for one or more devices,         component(s), system(s), process(es), etc.     -   Time Interpreter (e.g., 518) which, for example, may be operable         to automatically and/or dynamically modify or change identifier         activation and expiration time(s) based on various criteria such         as, for example, time, location, transaction status, etc.     -   Authentication/Validation Component(s) (e.g., 547) (password,         software/hardware info, SSL certificates) which, for example,         may be operable to perform various types of         authentication/validation tasks such as, for example, one or         more of the following (or combinations thereof):         -   verifying/authenticating devices,         -   verifying/authenticating users,         -   verifying passwords, passcodes, SSL certificates, biometric             identification         -   information, and/or other types of security-related             information         -   verify/validate activation and/or expiration times         -   etc.

In one implementation, the Authentication/Validation Component(s) may be adapted to determine and/or authenticate the identity of the current user or client system. For example, in one embodiment, the current user may be required to perform a log in process at the mobile client system in order to access one or more features. In some embodiments, the mobile client system may include biometric security components which may be operable to validate and/or authenticate the identity of a user by reading or scanning The user's biometric information (e.g., fingerprints, face, voice, eye/iris, etc.). In at least one implementation, various security features may be incorporated into the mobile client system to prevent unauthorized users from accessing confidential or sensitive information.

-   -   Interactive Study Wall Component(s) (e.g., 522) which, for         example, may be operable to perform and/or implement various         types of Interactive Study Wall functions, operations, actions,         and/or other features, such as, for example, one or more of         those described and/or referenced herein.     -   White Board Management Component(s) (e.g., 511) which, for         example, may be operable to perform and/or implement various         types of whiteboard functions, operations, actions, and/or other         features, such as, for example, one or more of those described         and/or referenced herein.     -   Video Presentation Recording, Playback, Streaming Component(s)         523, which, for example, may be operable to facilitate, enable,         initiate, and/or perform one or more of the operation(s),         action(s), and/or feature(s) relating to the video presentation         and digital composting techniques described herein.     -   OCR Processing Engine (e.g., 534) which, for example, may be         operable to perform image processing and optical character         recognition of images such as those captured by a mobile device         camera, for example.     -   Database Manager (e.g., 526) which, for example, may be operable         to handle various types of tasks relating to database updating,         database management, database access, etc.     -   Log Component(s) (e.g., 510) which, for example, may be operable         to generate and manage transactions history logs, system errors,         connections from APIs, etc.     -   Web Interface Component(s) (e.g., 508) which, for example, may         be operable to facilitate and manage communications and         transactions with Online Social Education web portal(s).     -   API Interface(s) (e.g., 546) which, for example, may be operable         to facilitate and manage communications and transactions with         API Interface(s) to Online Education Server System(s) and/or         other system(s)/network(s).     -   OCR Processing Engine (e.g., 534) which, for example, may be         operable to perform image processing and optical character         recognition of images such as those captured by a mobile device         camera, for example.     -   At least one processor 510. In at least one embodiment, the         processor(s) 510 may include one or more commonly known CPUs,         which are deployed in many of today's consumer electronic         devices, such as, for example, CPUs or processors from the         Motorola or Intel family of microprocessors, etc. In an         alternative embodiment, at least one processor may be specially         designed hardware for controlling the operations of the mobile         client system. In a specific embodiment, a memory (such as         non-volatile RAM and/or ROM) also forms part of CPU. When acting         under the control of appropriate software or firmware, the CPU         may be responsible for implementing specific functions         associated with the functions of a desired network device. The         CPU preferably accomplishes all these functions under the         control of software including an operating system, and any         appropriate applications software.     -   Memory 516, which, for example, may include volatile memory         (e.g., RAM), non-volatile memory (e.g., disk memory, FLASH         memory, EPROMs, etc.), unalterable memory, and/or other types of         memory. In at least one implementation, the memory 516 may         include functionality similar to at least a portion of         functionality implemented by one or more commonly known memory         devices such as those described herein and/or generally known to         one having ordinary skill in the art. According to different         embodiments, one or more memories or memory modules (e.g.,         memory blocks) may be configured or designed to store data,         program instructions for the functional operations of the mobile         client system and/or other information relating to the         functionality of the various Mobile Transaction techniques         described herein. The program instructions may control the         operation of an operating system and/or one or more         applications, for example. The memory or memories may also be         configured to store data structures, metadata, identifier         information/images, and/or information/data relating to other         features/functions described herein. Because such information         and program instructions may be employed to implement at least a         portion of the Online Social Education System techniques         described herein, various aspects described herein may be         implemented using machine readable media that include program         instructions, state information, etc. Examples of         machine-readable media include, but are not limited to, magnetic         media such as hard disks, floppy disks, and magnetic tape;         optical media such as CD-ROM disks; magneto-optical media such         as floptical disks; and hardware devices that are specially         configured to store and perform program instructions, such as         read-only memory devices (ROM) and random access memory (RAM).         Examples of program instructions include both machine code, such         as produced by a compiler, and files containing higher level         code that may be executed by the computer using an interpreter.     -   Interface(s) 518, which, for example, may include wired         interfaces and/or wireless interfaces. In at least one         implementation, the interface(s) 518 may include functionality         similar to at least a portion of functionality implemented by         one or more computer system interfaces such as those described         herein and/or generally known to one having ordinary skill in         the art.     -   Device driver(s) 542. In at least one implementation, the device         driver(s) 542 may include functionality similar to at least a         portion of functionality implemented by one or more computer         system driver devices such as those described herein and/or         generally known to one having ordinary skill in the art.     -   One or more display(s) 535. According to various embodiments,         such display(s) may be implemented using, for example, LCD         display technology, OLED display technology, and/or other types         of conventional display technology. In at least one         implementation, display(s) 535 may be adapted to be flexible or         bendable. Additionally, in at least one embodiment the         information displayed on display(s) 535 may utilize e-ink         technology (such as that available from E Ink Corporation,         Cambridge, Mass., www.eink.com), or other suitable technology         for reducing the power consumption of information displayed on         the display(s) 535.     -   Email Server Component(s) 536, which, for example, may be         configured or designed to provide various functions and         operations relating to email activities and communications.     -   Web Server Component(s) 537, which, for example, may be         configured or designed to provide various functions and         operations relating to web server activities and communications.     -   Messaging Server Component(s) 538, which, for example, may be         configured or designed to provide various functions and         operations relating to text messaging and/or other social         network messaging activities and/or communications.     -   Etc.

OCD Features/Functionality

Although many of the example embodiments and screenshot GUIs described above have been directed to specific embodiments relating to Interactive Study Wall posts, it will be appreciated that many of the Online Social Education System techniques described herein may also be applied to other types of online, collaborative educational environments such as, for example, webinars, audio/video chat rooms, video whiteboards, video conferences, online forums, online presentations, online collaborative tutorial sessions, and the like. For example, as described in greater detail herein, features and functionality relating to the Online Education techniques described herein may be implemented and/or utilized in other types of online, collaborative educational environments including, for example, webinars, audio/video chat rooms, video conferences, online forums, online collaborative tutorial sessions, online presentations, and the like.

For reference purposes, such other online collaborative educational environments may collectively be referred to as Online Collaborative Discussion (OCD) Environments (or OCD Rooms). According to different embodiments, various different types of OCD Rooms may be hosted by the Online Social Education System and/or 3rd party entities (such as, for example, Webex, Adobe Connect, Skype, etc.). Additionally, one or more of the various OCD Rooms may include functionality for providing Whiteboard GUIs, and/or for hosting collaborative whiteboard forums.

Although several example embodiments of one or more aspects and/or features have been described in detail herein with reference to the accompanying drawings, it is to be understood that aspects and/or features are not limited to these precise embodiments, and that various changes and modifications may be effected therein by one skilled in the art without departing from the scope of spirit of the invention(s) as defined, for example, in the appended claims. 

It is claimed:
 1. A video presentation production system for facilitating presentation of a streamed video media presentation over a computer network, the video presentation production system comprising: a mobile device comprising at least one processor, memory, a first display, a first camera component, and a first microphone, the mobile device being configured to cause the at least one processor to execute instructions stored in the memory to: capture, using the first camera component, a video media of a presenter delivering a first live presentation, and further being configured to generate a presenter video feed of the presenter delivering the first live presentation; generate a first presentation content feed relating to the first live presentation, the first presentation content feed including a first portion of presentation content; and generate a composite video presentation feed comprising a Chroma key composted video image of the presenter video feed overlaid or superimposed over a portion of the first presentation content feed.
 2. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: display, at the first display, a video presentation graphical user interface (“video presentation GUI”) which is operable to display a real-time feed of the composite video presentation feed.
 3. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: cause a video presentation graphical user interface (“video presentation GUI”) to be displayed at the first display; cause the video presentation graphical user interface to display a real-time feed of the composite video presentation feed in a manner such that presenter is able to view, while delivering the first live presentation, displayed content on the first display concurrently while substantially maintaining eye contact with the first camera component.
 4. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: cause the composite video presentation feed to be simultaneously streamed to a plurality of end user devices in substantially real-time, while presenter delivering a first live presentation.
 5. The video presentation production system of claim 1 wherein the mobile device is operable to generate the composite video presentation feed in substantially real-time while the presenter is delivering the first live presentation.
 6. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: enable the presenter to selectively add, in real-time and while the presenter is delivering the first live presentation, at least one annotation to the first portion of presentation content; and enable the presenter to view the annotated presentation content on the display screen in substantially real-time, while the presenter is delivering the first live presentation.
 7. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: capture content displayed on the first display of the mobile device; and generate the presentation content feed using at least a portion of the captured display content.
 8. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to automatically: identify presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify background content of the presenter video feed to be filtered from the presenter video feed; and dynamically generate a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content.
 9. The video presentation production system of claim 1, wherein the mobile device is configured to cause the at least one processor to execute instructions stored in the memory to: identify, while the presenter is delivering the first live presentation, presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify, while the presenter is delivering the first live presentation, background content of the presenter video feed to be filtered from the presenter video feed; dynamically generate, while the presenter is delivering the first live presentation, a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content; and use the filtered presenter video feed generate the Chroma key composted video image of the composite video presentation feed.
 10. A computer implemented method for facilitating presentation of a streamed video media presentation over a computer network, the computer network including a mobile device comprising at least one processor, memory, a first display, a first camera component, and a first microphone, the method comprising causing the at least one processor to execute a plurality of instructions stored at the memory to: capture, using the first camera component, a video media of a presenter delivering a first live presentation, and further being configured to generate a presenter video feed of the presenter delivering the first live presentation; generate a first presentation content feed relating to the first live presentation, the first presentation content feed including a first portion of presentation content; and generate a composite video presentation feed comprising a Chroma key composted video image of the presenter video feed overlaid or superimposed over a portion of the first presentation content feed.
 11. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: display, at the first display, a video presentation graphical user interface (“video presentation GUI”) which is operable to display a real-time feed of the composite video presentation feed while the presenter is delivering the first live presentation.
 12. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: cause a video presentation graphical user interface (“video presentation GUI”) to be displayed at the first display; cause the video presentation graphical user interface to display a real-time feed of the composite video presentation feed in a manner such that presenter is able to view, while delivering the first live presentation, displayed content on the first display concurrently while substantially maintaining eye contact with the first camera component.
 13. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: cause the composite video presentation feed to be simultaneously streamed to a plurality of end user devices in substantially real-time, while presenter delivering a first live presentation.
 14. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: generate the composite video presentation feed in substantially real-time while the presenter is delivering the first live presentation.
 15. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: enable the presenter to selectively add, in real-time and while the presenter is delivering the first live presentation, at least one annotation to the first portion of presentation content; and enable the presenter to view the annotated presentation content on the display screen in substantially real-time, while the presenter is delivering the first live presentation.
 16. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: capture content displayed on the first display of the mobile device; and generate the presentation content feed using at least a portion of the captured display content.
 17. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: identify presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify background content of the presenter video feed to be filtered from the presenter video feed; and dynamically generate a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content.
 18. The computer implemented method of claim 10 further comprising causing the at least one component of the computer network to: identify, while the presenter is delivering the first live presentation, presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; identify, while the presenter is delivering the first live presentation, background content of the presenter video feed to be filtered from the presenter video feed; dynamically generate, while the presenter is delivering the first live presentation, a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content; and use the filtered presenter video feed generate the Chroma key composted video image of the composite video presentation feed.
 19. A video presentation production system for facilitating presentation of a streamed video media presentation over a computer network, the video presentation production system comprising: a mobile device comprising at least one processor, memory, a first display, a first camera component, and a first microphone; means for capturing, using the first camera component, a video media of a presenter delivering a first live presentation, and further being configured to generate a presenter video feed of the presenter delivering the first live presentation; means for generating a first presentation content feed relating to the first live presentation, the first presentation content feed including a first portion of presentation content; means for identifying presenter image content from the presenter video feed, wherein the presenter image content represents an image of the presenter; means for identifying background content of the presenter video feed to be filtered from the presenter video feed; means for generating a filtered presenter video feed which includes the presenter image content, and which does not include the identified background content; and means for generating, using the filtered presenter video feed, a composite video presentation feed comprising a Chroma key composted video image of the presenter video feed overlaid or superimposed over a portion of the first presentation content feed. 